Christina stГјrmer alter

Christina StГјrmer Alter Mein Leben im Lungau

Sehen Sie sich das Profil von Christina Alter auf LinkedIn an, dem weltweit größten beruflichen Netzwerk. 1 Job ist im Profil von Christina Alter aufgelistet. Sehen. Informations- und Verwaltungssysteme. ZDV, Wächterstraße 76, Tübingen (); Telefon: ; E-Mail: norddesign2010.se(at)norddesign2010.se; Fax. Einfach Christina. Hallo! Ich bin Christina, eine Bäuerin, die bloggt und bäckt. Bereits in meiner Jugend liebte ich es, Kuchen zu backen, doch erst durch meine​. Christina Luft ist eine deutsche Profi-Tänzerin und bekannt durch die RTL-​Tanzshow "Let's Dance". Geboren. Vortrag. Christina Alert: „Pergamon – Geschichte und Kunst”. im Rahmen der Themenvorträge am MUT | Alte Kulturen der Universität Tübingen.

Einfach Christina. Hallo! Ich bin Christina, eine Bäuerin, die bloggt und bäckt. Bereits in meiner Jugend liebte ich es, Kuchen zu backen, doch erst durch meine​. Vortrag. Christina Alert: „Pergamon – Geschichte und Kunst”. im Rahmen der Themenvorträge am MUT | Alte Kulturen der Universität Tübingen. Informations- und Verwaltungssysteme. ZDV, Wächterstraße 76, Tübingen (); Telefon: ; E-Mail: norddesign2010.se(at)norddesign2010.se; Fax. Https://norddesign2010.se/filme-stream-ipad/the-intouchables-english-stream.php, F. Burtsev, P. A potassium tantalate niobate crystal based electro-optic OCT system with an optical-path scanning range of Tang, Yale University, Continue reading We demonstrate piezoelectricity enhanced optomechanical systems that simultaneously support microwave, optical and mechanical resonant modes. The dependence of the outcomes of interactions on initial separation verniedlichung coupling coefficient is discussed. Vasileva, Here. Sumetsky, Aston University, UK Resonant structures created along a thin capillary by nanoscale deformation of its surface can perform deutsch sully stream sensing and manipulation of microfluids. Horst, D. Phase conjugation is electro-optically realized without relying on electrical-domain processing.

Durfee, Colorado School of Mines, Golden, CO, USA Simultaneous spatial and temporal focusing SSTF effectively inhibits nonlinear processes that traditionally reduce the precision with which a low numerical aperture beam can ablate or modify materials.

A novel SSTF compression architecture and characterization techniques are described. Yanagihara and S. Mishra, T.

Ng, B. Janjua, C. Alyamani, M. Noh, K. Kim, W. Kim, C. Yun, S. Song and J. Kim, KOPTI, Gwangju, Korea When the emission spectrum of the powder state is adopted in an optical simulation, the simulated optical properties show a remarkable discrepancy from those of the fabricated LED package.

We suggest that the discrepancy originates from the absorption of Stokes shifted light by a phosphor. Ortsiefer, A. The coupling is based on the embedding of the VCSELs inside the substrate and the adaptive fabrication of waveguides on top, realizing 1 um alignment accuracy.

Dangel, F. Horst, D. Jubin, A. La Porta, N. Meier, J. Weiss and B. Offrein, IBM Research, Switzerland We extend our state-of-the-art multi-mode polymer waveguide technology to single-mode operation at a wavelength of nm and demonstrate the potential of this single-mode optical PCB technology for the assembly of silicon photonics chips.

Kinoshita, A. Takahashi and T. Ishigure, Keio University, Japan We demonstrate that graded-index GI profile in square-core waveguides improve the loss at degree mirrors on its ends over the SI-core waveguides.

Yoshida, Keio university, Yokohama, Japan We demonstrate a photomask-free fabrication for single-mode polymer optical waveguides using the Mosquito method.

In fabricating the waveguides, an inorganic-organic hybrid resin is applied to decrease the carbon-hydrogen absorption loss at nm wavelength.

Zhang, T. Kuehler, J. Stosch and E. After optimization, the network trained with numerical experiment results showed very good generalization ability.

Liboiron-Ladouceur, Dept. El-Fiky, Z. Results demonstrate the uplink transmission supporting more than 90 colorless ONUs at 1. Yoshida, Dept.

Matsumoto, Dept. Maruta and K. Kitayama, Dept. Chen, The Chinese University of Hong Kong, China Network coding is a revolutionary technique that can enhance network throughput and protection.

OCIS codes: Bimberg, H. Li, P. Moser, P. Wolf, G. Larisch and J. The VCSELs are well-suited for board-to-board, chip-to-chip, and on-chip optical interconnects for computer communications.

Westbergh, J. Gustavsson and A. Tan, Intel Corp. Choquette, University of Illinois at Urbana-Champaign, Champaign, IL, USA We show significant improvement of modulation bandwidth from 1x2 vertical cavity surface emitting laser arrays that are coherently coupled as compared to incoherent operation.

Alharthi, A. Henning and M. Adams, University of Essex, Colchester, UK We report the first experimental observation of different forms of polarization switching and bistability in an optically injected nm dilute nitride spin-VCSEL and for both right- and left- circularly polarized modes of the device.

Xue, Y. Xuan, Y. Liu, P. Wang, S. Chen, J. Wang, D. Leaird, M. Qi and A. Weiner, Purdue University, USA Mode-interaction-aided soft excitation of dark solitons in normal dispersion nonlinear microresonators is proved both experimentally and in simulation for the first time, resulting in dark pulse mode-locked broadband Kerr combs.

Matsko, W. Liang, V. Ilchenko, A. Savchenkov, J. Byrd, D. Seidel and L. This effect occurs as a consequence of change of local group velocity dispersion of the resonator spectrum resulting from linear interaction among resonator modes.

Lin, M. Mao, Y. Lin, H. Lin, C. Lin and L. Wang, National Taiwan University, Taiwan, Republic of China We demonstrated high-speed all-optical switching in a GaAs microdisk resonator using the tapered fiber pump probe technique.

The optical transmission of the resonator was modulated with a time response of 43 ps. Eksioglu, Brno University of Technology, Brno, Czech Republic The dynamics of nonlinear resonant structures consisting of two coupled ring resonators were investigated for non-instantaneous Kerr response.

We demonstrated transitions from stable states to selfpulsing and chaotic states. O'Brien, S. Collins, H. Chun, G. Faulkner, S. Rajbhandari, A.

Manousiadis, D. Vithanage, G. Turnbull, I. Henderson, K. Cameron, A. Jalajakumari, D. Tsonev, S. Videv, H. Xie, E. Gu, J. McKendry and M.

This paper details improvements to transmitter and receiver that can increase link margin, field of view and data rate. We show that the singular layer assistance provides improved secret key rates for CVQKD, particularly in crucial low signal-to-noise ratio regimes.

Rajbhandari, G. Tsonev, H. Chan, M. Asghari and B. In particular, the performance in far field and near field regimes is determined by group delay ripples at lower and higher frequencies, respectively.

Engheta, University of Pennsylvania, Philadelphia, USA Optical nanoantennas have become an important part of nano-optics, nanophotonics, and micro- and nanoscale light-matter interaction.

In this tutorial, I present an overview of some of the fundamental concepts and recent developments in this area.

We describe work at Stanford towards the development of new OCT system schemes, algorithms, phantoms and clinical applications.

Choma, Yale University, USA The spatial and temporal coherence of optical fields are basic properties that have been successfully exploited in biomedical optics.

I will discuss our biomedical use of optical coherence tomography and our work in the targeted design of desirable spatial coherence properties in light sources.

Damodaran, N. Vasa and S. A potassium tantalate niobate crystal based electro-optic OCT system with an optical-path scanning range of Miyazu, T.

Imai and J. The unexpected beam distortion caused by the aberration of the lenses is greatly reduced by suppressing electron injection.

Demir and N. Hardavellas, Northwestern University, USA Silicon photonics are an attractive technology for global interconnects in many-core processors.

However, they come with significant laser power consumption. Zhao, A. Chadha, S. Liu, H. Yang, Y. Yokoyama, Kyushu University, Japan We show our recent achievement of the electro-optic polymer waveguide modulator with a very small half-wave-voltage driving voltage and 50 GHz bandwidth property.

Furthermore, we use EO polymer with the high-refractive index waveguide such as silicon nitride and titanium dioxide toward silicon photonics application.

Suzuki, Y. Matsutani and F. Koyama, Tokyo Institute of Technology, Japan We analyze and improve the crosstalk between adjacent output-ports in Bragg reflector waveguides arraybased wavelength selective switching.

Asquini, L. Gilardi, University of Technology Eindhoven, The Netherlands We present the fabrication and the characterization of waveguides made of a nematic liquid crystal infiltrated in PDMS channels.

The molecular orientation inside the waveguides allows only 0. Barea, M. Souza, G. Rezende and N. Frateschi, University of Campinas, Brazil We demonstrate how CMOS compatible photonic molecules PM can break the fundamental interdependence among quality factor Q , channel spacing and size of microring resonators.

Different PM architectures are presented for efficient and compact optical signal processing.

Wang and L. Chen, McGill University, Canada We demonstrate bandpass transmission filters and optical add-drop multiplexers on SOI based on interferometric structures incorporating a pair of sidewall Bragg gratings.

Hayama, Kanagawa Institute of Technology, Japan We propose a silicon waveguide Mach-Zehnder in-terferometer with weighted grating structures for a tunable add-drop filter.

Theoretically and experimen-tally obtained wavelength characteristics with suppressed side lobes in the proposed device are reported.

Qi, G. Hu and Y. The waveguide morphology etched by single electrode ICP was much better than that of the dual-electrode ICP under the optimal conditions.

Kuri, T. Sakamoto and T. Kawanishi, National Institute of Information and Communications Technology, Japan A digital-signal-processing-assisted optical coherent detection of an uplink radio-over-fiber signal with a two-tone local light, which is insensitive to laser phase fluctuation, is newly proposed and its phase fluctuation cancellation effect is experimentally demonstrated.

Dogadaev, X. Lyngby, Denmark, L. Ruepp, L. Dittmann and H. Provided simulation performance analysis proves a potential to reach Nirmalathas, K.

Wang, Y. Yang and C. Lim, University of Melbourne, Parkville, Australia Optical technologies can enable efficient backhaul for mobile networks and can provide direct wireless transmission to support ultra-broadband connectivity.

This paper examines the complimentary role of optical networking and optical systems in broadband wireless access networks.

Mihara, Y. Shinohara, H. Kishikawa, N. In this report, we propose a complete conversion system with filtering and the performance is numerically confirmed.

Gao, B. Thompson, G. Ragunathan, S. Siriani, University of Illinois, USA We discuss the physics and applications of coherently coupled photonic crystal vertical cavity surface emitting laser arrays.

The optical phase between elements can be controlled using a novel temporal phase shifting mechanism. Odom, Northwestern University, USA This talk will describe how strongly coupled nanoparticle arrays can behave as an unconventional cavity structure for plasmonic nanolasers.

Room temperature, directional emission was achieved. Volet, B. Dwir, A. Sirbu, V. Iakovlev, A. Caliman, G. Suruceanu, BeamExpress S.

Stable optical modes are discovered, with a polarization that differs from the linear case.

Results are explained by hybridization of the VCSEL modes and a negative linewidth enhancement factor.

Chu, Y. Li, C. Cheng and M. The lasing wavelength is at nm with threshold current of 0. Sodagar, A. Hosseinnia, A.

Eftekhar and A. Feng, K. Bovington, R. Wu, K. Cheng, J. The measured ring resonance wavelengths near 1. Van Vaerenbergh, M. Fiers, UGent-imec, Belgium, J.

Dambre and P. Bienstman, Ghent university, Belgium We present in simulation a photonic neural circuit achieving a ns spike delay, based on excitability in microrings.

This type of delayline paves the way towards fully integrated optical spiking neural networks. By incorporating loss factor from experimental measurement into numerical model, agreement between numerical and measurement results is achieved.

We review both its background and experimental demonstrations including a record single core result of Hussin and R.

Noe, Optical Communication and High-Frequency Engineering, Germany We simulate frequency domain dual compensators for nonlinear phase noise mitigation in a km 40 Gbps coherent optical OFDM transmission system with inline dispersion compensation.

This technique effectively compensates SPM induced by fiber nonlinearity. Wang, Huawei Technologies, China and S. Rosario, T.

Alves and A. Meuer, A. Rahim, K. Voigt, A. Abboud, I. Winzer, L. Bruns, K. All eight subcarriers showed less than 1.

Kosten, D. Callahan, K. Horowitz and R. Pala, Thomas J. Fortuna, M. Eggleston, K. Messer, E. Yablonovitch and M.

Initial experimental results show 2x higher intensity of light emission with polarization parallel with the antenna mode indicating the presence of spontaneous emission enhancement.

Motoyama, Y. Hirano, K. Tanaka, N. Saito, H. Kikuchi and N. Most stray light is reduced by using a shielding film.

Therefore, we can obtain a principal axis with a large deflection angle and sharply defined shape. Rupasinghe, W. Zhu and M. Premaratne, Monash University, Australia We propose a new cancer treatment technique in which graphene nanoflakes and carbon nanotubes operate as a self-assembled cluster of spasers near cancer cells causing selective destruction of them by an amplified electric field.

Jung, Yonsei University, Korea, H. Paulson, T. Nazari, Yonsei University, Korea, Y. We developed a re-crystallization process that can reduce the hydroxyl contents significantly, which were confirmed by the Raman spectra measurements.

Street, T. Ng, R. Lee, Samsung Fine Chemicals Co. The performance of solution-deposited TFT backplanes will also be described.

Xu and S. Nakajima, T. Takei, G. Motomura, T. Tsuzuki, H. Fukagawa, M. Nakata, H. Tsuji, T. Shimizu, Japan Broadcasting Corporation, Sci.

Morii, M. Hasegawa, Nippon Shokubai Co. Fujisaki, T. Kurita and T. Yamamoto, Japan Broadcasting Corporation, Sci. The fabricated TFT backplane exhibited good electrical characteristics, and we confirmed the display could show color moving images.

Chen, W. Koch, University of Arizona, USA Silicon photonics has advanced rapidly by exploiting VLSI front-end chip manufacturing to create sophisticated circuits with novel nanophotonic devices.

This talk will explore the potential for a second revolution that similarly leverages back-end VLSI assembly technologies.

Salvatore, R. Muthiah, M. Ziari, S. DeMars, P. Evans, S. Murthy, O. Khayam, J. Pleumeekers, E. Strzelecka, M. Missey, A.

Nilsson, P. Freeman, W. Sande, T. Butrie, M. Reffle and F. Kish, Infinera Inc. Over 1. Pond, Lumerical Solutions, Canada, C. Arriordaz, Mentor Graphics, France, A.

Cao, Mentor Graphics, France, J. Klein, Lumerical Solutions, Canada and R. Stoffer, PhoeniX Software, The Netherlands To improve the design flow for silicon and other photonics technologies, companies from the photonics and electronics design automation domain collaborate, to improve the integration of simulations, layout, verification and design rule checking.

Verslegers, A. Mekis, T. Pinguet, Y. Chi, G. Masini, P. Sun, A. Ayazi, K. Hon, S. Sahni, S. Gloeckner, Luxtera Inc.

Baudot, F. Boeuf, STMicroelectronics and P. De Dobbelaere, Luxtera Inc. As examples, we present approaches to design low-loss polarization-splitting grating couplers, high-speed phase modulators and photodetectors.

Xia, Ericsson Research, USA We will present our work on elastic optical networking, an emerging network paradigm for demandadaptive provisioning with high customizability.

To achieve high spectrum efficiency, we study the transmission performance of various modulation formats for on-demand provisioning, and propose an efficient routing and spectrum assignment scheme.

Cvijetic, NEC Laboratories America, USA New applications are driving emergence of diverse short-reach optical networking segments with a common emphasis on high-speed, low-cost, and flexibility.

Along with a tradeoff between flexibility and cost, we present a model for estimating ROADM cost of a network from the node count and average nodal degree regardless of the network topology.

Carmon, Technion, Israel MF3. Maslov, M. Li and V. Astratov, University of North Carolina at Charlotte, USA Resonant scattering of radiation by particles implies a significant change of the incident electromagnetic momentum flow and, consequently, large forces on the particles.

We study and compare the forces and their relation to the momentum of the incident free-space and guided waves in various geometries. Sumetsky, Aston University, UK Resonant structures created along a thin capillary by nanoscale deformation of its surface can perform comprehensive sensing and manipulation of microfluids.

The concept is illustrated with a model of triangular bottle resonator and floating microparticles.

Tetsumoto and T. Tanabe, Keio University, Japan We study a radiation pressure driven optical directional switch with a high-Q silica-zipper cavity numerically.

We showed the feasibility of a switch with a Kim, O. Vassilieva, P. Palacharla and M. Sekiya, Fujitsu Laboratories of America, Inc.

Multiple SIs improve nonlinear transmission performance for mixed fiber links. Isautier, J. Pan, J. Langston, S. Ralph, Georgia Institute of Technology, USA We compare the merits of two fully autonomous coherent optical receiver architectures including an investigation of robustness to nonlinearities using experimental The first architecture performs modulation format recognition using a pure higher-order-statistics method whereas the second utilizes Stokes space analysis.

It offers significant reduction in complexity and bandwidth overhead which makes it suitable for practical implementation. Fan, L. Dou, Y.

Hoshida, Fujitsu Limited, Japan and J. Rasmussen, Fujitsu Laboratories, Japan Intra-channel nonlinear noise waveform is predicted by novel nonlinear models.

Using the more accurate model, the compensation performance is increased by 1 dB. Fleury and D. Sounas, The University of Texas at Austin, USA We discuss metasurfaces and metamaterials with exotic optical properties, which can provide giant nonlinear, nonreciprocal or parity-time symmetric response.

Our findings can largely relax the limitations on bandwidth and losses of conventional optical metamaterials.

Kim, T. Lee, M. Kim, J. Kwon, J. Park, B. Lee, D. Kang, K. Schuette, D. Young, D. Craig, B.

Felton and K. Warner Geiger-mode avalanche photodiodes APDs have been used as single-photon-sensitive optical detectors for applications such as lidar imaging, laser spectroscopy, and optical communications.

They are biased above the avalanche breakdown voltage, where the absorption of a single photon by the diode can trigger a self-sustaining avalanche TuA1.

Senanayake, D. Nanowires are distinguished by this phenomenon due their flexibility in forming axial and radial junctions.

Hossain, University of New Mexico, Albuquerque, USA Breakdown voltage, mean gain and excess noise factor of CMOS-compatible p-n junction silicon avalanche photodiodes are predicted using the dead space multiplication theory.

Measured dark current and breakdown voltages are also reported supporting low-voltage operation.

Nada, Y. Muramoto, H. Yokoyama and H. The APD exhibits large 3-dB bandwidth for a wide input power range. Cao, R. Proietti and S. Compared with fat-tree, 2.

Chen, B. Liu, O. Hurley and M. Dogru and N. Sarailou, A. Ardey and P. Murata, N. Kohmu, T. Ikeda and Y.

Okamura, Graduate School of Engineering Science, Osaka University, Japan 60 GHz-band wireless 4-channel SDM signals were discriminated using an array-antenna-electrode electro-optic modulator with multiple channel waveguides and polarization reversal structures.

Conversion to an IF-band signal using photonic technology is also discussed with preliminary experiments.

Hu, C. Hutchinson, V. Urick and K. The Franz-Keldysh effect and impact ionization are the two most important sources of nonlinearity. St-Yves, W.

The device shows a seamless notch RF frequency tuning over 20 GHz without changes in the shape of the filter response. Zimer, M.

Haas, S. Ried, C. Tillkorn, A. Heinemann, V. Negoita, H. Martinsen, nLight Inc. Stubenrauch, G. Stracke, D. Arsenijevic, A. Strittmatter and D.

Bimberg, Technical University Berlin, Germany The static and dynamic properties of p-doped quantum-dot distributed-feedback lasers based on pure index-gratings are presented.

Lin, Applied Optoelectronics, Inc. Their frequency dependent CTB was studied through band gap engineering in the active region.

Hou, J. Marsh and M. Stable pulse trains at GHz, GHz, and 1. Raghunathan and L. Lester, Virginia Tech, USA A model for passive mode-locking is presented that enables analysis of the output repetition rate stability as a function of device properties and clarifies the importance of the differential absorption, unsaturated absorption and internal loss.

Klee, K. Bagnell and P. Delfyett, CREOL, College of Optics and Photonics at Univerisity Central Florida, USA We investigate the optimal amount of dispersion compensation for maximum spectral bandwidth of an optical frequency comb from an external fiber cavity semiconductor laser with intracavity etalon.

Fazel, M. Lourdiane and C. Filer and S. Channel spacing, WSS filter shape, and DSP parameters are considered, and recommendations are made for performance optimization using methods which are practically implementable in modern hardware.

Kawanishi and A. Kanno, National Institute of Information and Communications Technology, Japan This presentation shows precise lightwave control and multi-level modulation techniques for analog and digital signal transmission.

Digital signal processing can mitigate signal degradation in seamless access communication systems of wired and wireless links.

Searcy and S. Penty and I. White, University of Cambridge, UK We present a proof-of-principle low-cost, uncooled, multiple-input-multiple-output MIMO dense wavelength division multiplexed DWDM system using advanced coding to allow for a greater stable operating region to be realized in terms of minimum channel spacing.

Chang, W. Pelouch, S. Burtsev, P. Perrier and H. Fevrier, Xtera Communications, Inc. Lu and T. Phase conjugation is electro-optically realized without relying on electrical-domain processing.

Kilic, Bilkent University, Turkey, V. Erturk and H. Benz, O. Wolf, J. Sinclair and I. This model can also be used to optimize metamaterial structures that enhance second-order nonlinear processes.

Chen, S. Song, L. Wen, L. Jin, Y. Yu and F. Cascaded MPAs integrated with graphene are investigated as multiband photodetectors.

Our analysis indicates that such a THz photomixer design may generate continuous wave powers in the milliwatt range and, through photoconductive gain, exceed the Manley-Rowe limit up to 2 THz.

Yardimci, S. Sun, M. Edgar, R. Padgett, SUPA, School of Physics and Astronomy, University of Glasgow, UK Ghost Imaging uses a series of projected illumination patterns and a measurement of the total backscattered light to deduce the image of an object under illumination.

The shadows in such images depend upon the relative position of the pattern projector and the detector. Using multiple TuA2. Lee, S. Park, N.

Yeom, K. Hong and J. Kim, Seoul National University, Korea Acquisition and visualization of three-dimensional information based on light field imaging technique is attractive due to its high compatibility.

We introduce imaging techniques including real-time pickupdisplay systems and light field hologram generation. Arbabi, B. Goddard, University of Illinois at Urbana-Champaign, USA Diffraction phase microscopy is a non-destructive in-situ characterization tool with nanometer height resolution that can measure 3-dimensional topography.

We apply it to characterize microdroplets during evaporation without any a priori assumptions about the droplet geometry. Chen, Y. Huo, E.

Fei, C. Lu, K. Zang, M. Xue, T. Kamins and J. The intensity enhancement and peak shift from photoluminescence measurements are in agreement with theoretical calculations.

Keyvaninia, M. Tassaert, T. Speusens, G. Roelkens, B. Tian, Z. Pantouvaki and C. This paper presents results on two technology platforms being developed for realizing these.

Integration using wafer bonding technologies is well established now and the focus is on new device types including tunable lasers, multi-wavelength lasers and switching.

Rivers, K. Kormirisetty and D. Geddis, Norfolk State University, USA As data centers continue to consolidate, the demand for cost effective optical links will increase.

The research presented herein includes the design and fabrication of a long wavelength VCSEL-based optical transceiver for such for links.

Pan and Y. Zhang, Nanjing University of Aeronautics and Astronautics, China Polarization modulation can provide the microwave photonic signal processing systems unprecedented flexibilities.

A variety of polarization-modulation-based microwave photonic signal processing functions have been realized with high performance, simple configuration and flexible operation.

Chen, McGill University, Department of Electrical and Computer Engineering, Canada Using the spectral coherence properties of temporally modulated incoherent fields, a novel optical pulse shaping approach for obtaining a fully coherent optical waveform with a customized temporal shape from a time-gated incoherent light source is introduced and numerically demonstrated.

Chang, J. Wang, M. Chen and P. Prucnal, Princeton University, USA We demonstrate a microwave photonic system to perform wideband, radio frequency self-interference cancellation.

The tunable optical time delay is implemented using a novel semiconductor slow and fast light delay line that enables fast electrical control.

Kwon, Y. The electric fields propagating inside a WR waveguide are measured utilizing W-band harmonics of a femtosecond laser with a minute photonic probe.

Ye, F. Zhang and S. Pan, Nanjing University of Aeronautics and Astronautics, China A photonic time-stretched analog-to-digital converter with suppression of dispersion-induced power fading is proposed using polarization modulation.

Huang, B. Chann and P. Tayebati, TeraDiode, Inc. Pruijmboom, R. Conrads, C. Deppe, G. Derra, S. Gronenborn, X.

Gu, G. Heusler, J. Moench, F. Ogiewa, P. Pekarski, J. Pollmann-Retsch and U. Weichmann, Philips GmbH Photonics Aachen, Germany Thermal processes play an essential role in the production and processing of countless industrial and consumer products.

Narrow bandwidth near infrared NIR light allows contactless transfer of energy with a high power per area that can be tailored to the needs of the application.

Deri, A. Bayramian, A. Erlandson, S. Patra, A. Dunne, D. Flowers, S. Telford, S. Fulkerson and K. Schaffers, Lawrence Livermore National Laboratory, USA Several large scale laser applications require diode pumps for high efficiency and average power, but are sensitive to diode performance-cost tradeoffs.

This paper describes approaches for addressing these issues in pulsed laser systems, using an example of inertial fusion energy drivers.

Lester, Virginia Tech, USA A new method of achieving mode locking using a gain lever Quantum Dot Mode Locked Laser is proposed as an augment to traditional techniques when striving for higher repetition rates.

Chaibi, Telecom Paristech, France, B. Erasme, Telecom Paristech, France, K. The former exhibits a resonance due to the injected field and the equivalent a-factor can be larger than that of solitary laser.

Jahnke and C. Gies, Bremen University, Germany Cavity-quantum-electrodynamics is applied to address the questions of criteria and nature of lasing in devices where the intensity jump customarily used to indicate lasing threshold is missing.

Vallaitis, J. Summers, P. Evans, M. Ziari, P. Studenkov, M. Fisher, J. Sena, A. James, S. Premaratne, Monash University, Australia We propose a new cancer treatment technique in which graphene nanoflakes and carbon nanotubes operate as a self-assembled cluster of spasers near cancer cells causing selective destruction of them by an amplified electric field.

Jung, Yonsei University, Korea, H. Paulson, T. Nazari, Yonsei University, Korea, Y. We developed a re-crystallization process that can reduce the hydroxyl contents significantly, which were confirmed by the Raman spectra measurements.

Street, T. Ng, R. Lee, Samsung Fine Chemicals Co. The performance of solution-deposited TFT backplanes will also be described. Xu and S.

Nakajima, T. Takei, G. Motomura, T. Tsuzuki, H. Fukagawa, M. Nakata, H. Tsuji, T. Shimizu, Japan Broadcasting Corporation, Sci. Morii, M. Hasegawa, Nippon Shokubai Co.

Fujisaki, T. Kurita and T. Yamamoto, Japan Broadcasting Corporation, Sci. The fabricated TFT backplane exhibited good electrical characteristics, and we confirmed the display could show color moving images.

Chen, W. Koch, University of Arizona, USA Silicon photonics has advanced rapidly by exploiting VLSI front-end chip manufacturing to create sophisticated circuits with novel nanophotonic devices.

This talk will explore the potential for a second revolution that similarly leverages back-end VLSI assembly technologies.

Salvatore, R. Muthiah, M. Ziari, S. DeMars, P. Evans, S. Murthy, O. Khayam, J. Pleumeekers, E.

Strzelecka, M. Missey, A. Nilsson, P. Freeman, W. Sande, T. Butrie, M. Reffle and F. Kish, Infinera Inc.

Over 1. Pond, Lumerical Solutions, Canada, C. Arriordaz, Mentor Graphics, France, A. Cao, Mentor Graphics, France, J.

Klein, Lumerical Solutions, Canada and R. Stoffer, PhoeniX Software, The Netherlands To improve the design flow for silicon and other photonics technologies, companies from the photonics and electronics design automation domain collaborate, to improve the integration of simulations, layout, verification and design rule checking.

Verslegers, A. Mekis, T. Pinguet, Y. Chi, G. Masini, P. Sun, A. Ayazi, K. Hon, S. Sahni, S. Gloeckner, Luxtera Inc. Baudot, F. Boeuf, STMicroelectronics and P.

De Dobbelaere, Luxtera Inc. As examples, we present approaches to design low-loss polarization-splitting grating couplers, high-speed phase modulators and photodetectors.

Xia, Ericsson Research, USA We will present our work on elastic optical networking, an emerging network paradigm for demandadaptive provisioning with high customizability.

To achieve high spectrum efficiency, we study the transmission performance of various modulation formats for on-demand provisioning, and propose an efficient routing and spectrum assignment scheme.

Cvijetic, NEC Laboratories America, USA New applications are driving emergence of diverse short-reach optical networking segments with a common emphasis on high-speed, low-cost, and flexibility.

Along with a tradeoff between flexibility and cost, we present a model for estimating ROADM cost of a network from the node count and average nodal degree regardless of the network topology.

Carmon, Technion, Israel MF3. Maslov, M. Li and V. Astratov, University of North Carolina at Charlotte, USA Resonant scattering of radiation by particles implies a significant change of the incident electromagnetic momentum flow and, consequently, large forces on the particles.

We study and compare the forces and their relation to the momentum of the incident free-space and guided waves in various geometries.

Sumetsky, Aston University, UK Resonant structures created along a thin capillary by nanoscale deformation of its surface can perform comprehensive sensing and manipulation of microfluids.

The concept is illustrated with a model of triangular bottle resonator and floating microparticles.

Tetsumoto and T. Tanabe, Keio University, Japan We study a radiation pressure driven optical directional switch with a high-Q silica-zipper cavity numerically.

We showed the feasibility of a switch with a Kim, O. Vassilieva, P. Palacharla and M. Sekiya, Fujitsu Laboratories of America, Inc.

Multiple SIs improve nonlinear transmission performance for mixed fiber links. Isautier, J. Pan, J. Langston, S.

Ralph, Georgia Institute of Technology, USA We compare the merits of two fully autonomous coherent optical receiver architectures including an investigation of robustness to nonlinearities using experimental The first architecture performs modulation format recognition using a pure higher-order-statistics method whereas the second utilizes Stokes space analysis.

It offers significant reduction in complexity and bandwidth overhead which makes it suitable for practical implementation.

Fan, L. Dou, Y. Hoshida, Fujitsu Limited, Japan and J. Rasmussen, Fujitsu Laboratories, Japan Intra-channel nonlinear noise waveform is predicted by novel nonlinear models.

Using the more accurate model, the compensation performance is increased by 1 dB. Fleury and D. Sounas, The University of Texas at Austin, USA We discuss metasurfaces and metamaterials with exotic optical properties, which can provide giant nonlinear, nonreciprocal or parity-time symmetric response.

Our findings can largely relax the limitations on bandwidth and losses of conventional optical metamaterials.

Kim, T. Lee, M. Kim, J. Kwon, J. Park, B. Lee, D. Kang, K. Schuette, D. Young, D. Craig, B. Felton and K. Warner Geiger-mode avalanche photodiodes APDs have been used as single-photon-sensitive optical detectors for applications such as lidar imaging, laser spectroscopy, and optical communications.

They are biased above the avalanche breakdown voltage, where the absorption of a single photon by the diode can trigger a self-sustaining avalanche TuA1.

Senanayake, D. Nanowires are distinguished by this phenomenon due their flexibility in forming axial and radial junctions. Hossain, University of New Mexico, Albuquerque, USA Breakdown voltage, mean gain and excess noise factor of CMOS-compatible p-n junction silicon avalanche photodiodes are predicted using the dead space multiplication theory.

Measured dark current and breakdown voltages are also reported supporting low-voltage operation. Nada, Y. Muramoto, H. Yokoyama and H. The APD exhibits large 3-dB bandwidth for a wide input power range.

Cao, R. Proietti and S. Compared with fat-tree, 2. Chen, B. Liu, O. Hurley and M. Dogru and N. Sarailou, A. Ardey and P.

Murata, N. Kohmu, T. Ikeda and Y. Okamura, Graduate School of Engineering Science, Osaka University, Japan 60 GHz-band wireless 4-channel SDM signals were discriminated using an array-antenna-electrode electro-optic modulator with multiple channel waveguides and polarization reversal structures.

Conversion to an IF-band signal using photonic technology is also discussed with preliminary experiments.

Hu, C. Hutchinson, V. Urick and K. The Franz-Keldysh effect and impact ionization are the two most important sources of nonlinearity.

St-Yves, W. The device shows a seamless notch RF frequency tuning over 20 GHz without changes in the shape of the filter response.

Zimer, M. Haas, S. Ried, C. Tillkorn, A. Heinemann, V. Negoita, H. Martinsen, nLight Inc. Stubenrauch, G. Stracke, D. Arsenijevic, A. Strittmatter and D.

Bimberg, Technical University Berlin, Germany The static and dynamic properties of p-doped quantum-dot distributed-feedback lasers based on pure index-gratings are presented.

Lin, Applied Optoelectronics, Inc. Their frequency dependent CTB was studied through band gap engineering in the active region. Hou, J.

Marsh and M. Stable pulse trains at GHz, GHz, and 1. Raghunathan and L. Lester, Virginia Tech, USA A model for passive mode-locking is presented that enables analysis of the output repetition rate stability as a function of device properties and clarifies the importance of the differential absorption, unsaturated absorption and internal loss.

Klee, K. Bagnell and P. Delfyett, CREOL, College of Optics and Photonics at Univerisity Central Florida, USA We investigate the optimal amount of dispersion compensation for maximum spectral bandwidth of an optical frequency comb from an external fiber cavity semiconductor laser with intracavity etalon.

Fazel, M. Lourdiane and C. Filer and S. Channel spacing, WSS filter shape, and DSP parameters are considered, and recommendations are made for performance optimization using methods which are practically implementable in modern hardware.

Kawanishi and A. Kanno, National Institute of Information and Communications Technology, Japan This presentation shows precise lightwave control and multi-level modulation techniques for analog and digital signal transmission.

Digital signal processing can mitigate signal degradation in seamless access communication systems of wired and wireless links.

Searcy and S. Penty and I. White, University of Cambridge, UK We present a proof-of-principle low-cost, uncooled, multiple-input-multiple-output MIMO dense wavelength division multiplexed DWDM system using advanced coding to allow for a greater stable operating region to be realized in terms of minimum channel spacing.

Chang, W. Pelouch, S. Burtsev, P. Perrier and H. Fevrier, Xtera Communications, Inc. Lu and T. Phase conjugation is electro-optically realized without relying on electrical-domain processing.

Kilic, Bilkent University, Turkey, V. Erturk and H. Benz, O. Wolf, J. Sinclair and I. This model can also be used to optimize metamaterial structures that enhance second-order nonlinear processes.

Chen, S. Song, L. Wen, L. Jin, Y. Yu and F. Cascaded MPAs integrated with graphene are investigated as multiband photodetectors. Our analysis indicates that such a THz photomixer design may generate continuous wave powers in the milliwatt range and, through photoconductive gain, exceed the Manley-Rowe limit up to 2 THz.

Yardimci, S. Sun, M. Edgar, R. Padgett, SUPA, School of Physics and Astronomy, University of Glasgow, UK Ghost Imaging uses a series of projected illumination patterns and a measurement of the total backscattered light to deduce the image of an object under illumination.

The shadows in such images depend upon the relative position of the pattern projector and the detector. Using multiple TuA2.

Lee, S. Park, N. Yeom, K. Hong and J. Kim, Seoul National University, Korea Acquisition and visualization of three-dimensional information based on light field imaging technique is attractive due to its high compatibility.

We introduce imaging techniques including real-time pickupdisplay systems and light field hologram generation. Arbabi, B. Goddard, University of Illinois at Urbana-Champaign, USA Diffraction phase microscopy is a non-destructive in-situ characterization tool with nanometer height resolution that can measure 3-dimensional topography.

We apply it to characterize microdroplets during evaporation without any a priori assumptions about the droplet geometry.

Chen, Y. Huo, E. Fei, C. Lu, K. Zang, M. Xue, T. Kamins and J. The intensity enhancement and peak shift from photoluminescence measurements are in agreement with theoretical calculations.

Keyvaninia, M. Tassaert, T. Speusens, G. Roelkens, B. Tian, Z. Pantouvaki and C. This paper presents results on two technology platforms being developed for realizing these.

Integration using wafer bonding technologies is well established now and the focus is on new device types including tunable lasers, multi-wavelength lasers and switching.

Rivers, K. Kormirisetty and D. Geddis, Norfolk State University, USA As data centers continue to consolidate, the demand for cost effective optical links will increase.

The research presented herein includes the design and fabrication of a long wavelength VCSEL-based optical transceiver for such for links.

Pan and Y. Zhang, Nanjing University of Aeronautics and Astronautics, China Polarization modulation can provide the microwave photonic signal processing systems unprecedented flexibilities.

A variety of polarization-modulation-based microwave photonic signal processing functions have been realized with high performance, simple configuration and flexible operation.

Chen, McGill University, Department of Electrical and Computer Engineering, Canada Using the spectral coherence properties of temporally modulated incoherent fields, a novel optical pulse shaping approach for obtaining a fully coherent optical waveform with a customized temporal shape from a time-gated incoherent light source is introduced and numerically demonstrated.

Chang, J. Wang, M. Chen and P. Prucnal, Princeton University, USA We demonstrate a microwave photonic system to perform wideband, radio frequency self-interference cancellation.

The tunable optical time delay is implemented using a novel semiconductor slow and fast light delay line that enables fast electrical control.

Kwon, Y. The electric fields propagating inside a WR waveguide are measured utilizing W-band harmonics of a femtosecond laser with a minute photonic probe.

Ye, F. Zhang and S. Pan, Nanjing University of Aeronautics and Astronautics, China A photonic time-stretched analog-to-digital converter with suppression of dispersion-induced power fading is proposed using polarization modulation.

Huang, B. Chann and P. Tayebati, TeraDiode, Inc. Pruijmboom, R. Conrads, C. Deppe, G. Derra, S.

Gronenborn, X. Gu, G. Heusler, J. Moench, F. Ogiewa, P. Pekarski, J. Pollmann-Retsch and U. Weichmann, Philips GmbH Photonics Aachen, Germany Thermal processes play an essential role in the production and processing of countless industrial and consumer products.

Narrow bandwidth near infrared NIR light allows contactless transfer of energy with a high power per area that can be tailored to the needs of the application.

Deri, A. Bayramian, A. Erlandson, S. Patra, A. Dunne, D. Flowers, S. Telford, S. Fulkerson and K. Schaffers, Lawrence Livermore National Laboratory, USA Several large scale laser applications require diode pumps for high efficiency and average power, but are sensitive to diode performance-cost tradeoffs.

This paper describes approaches for addressing these issues in pulsed laser systems, using an example of inertial fusion energy drivers.

Lester, Virginia Tech, USA A new method of achieving mode locking using a gain lever Quantum Dot Mode Locked Laser is proposed as an augment to traditional techniques when striving for higher repetition rates.

Chaibi, Telecom Paristech, France, B. Erasme, Telecom Paristech, France, K. The former exhibits a resonance due to the injected field and the equivalent a-factor can be larger than that of solitary laser.

Jahnke and C. Gies, Bremen University, Germany Cavity-quantum-electrodynamics is applied to address the questions of criteria and nature of lasing in devices where the intensity jump customarily used to indicate lasing threshold is missing.

Vallaitis, J. Summers, P. Evans, M. Ziari, P. Studenkov, M. Fisher, J. Sena, A. James, S. Ou Yang, M.

Missey, D. Gold, D. Lambert, W. Williams, M. Lai, F. Kish and D. Welch, Infinera, USA We demonstrate a single-chip, monolithically integrated, dual-polarization QPSK transmitter which combines over functions and is capable of delivering 2.

Kitamura, N. Kono, H. Yagi, T. Ishikawa, K. Horino, D. Kimura, M. Seki and Y. Yoneda, Sumitomo Electric Industries, Ltd.

It gives the wider dry-etching process tolerances, which provides uniform and low loss coupling properties.

Johansson, M. Lu, H. Park, M. Rodwell, Lkuo. Integrated transmitters and receivers for fast wavelength switched applications are presented.

Kawanishi, NICT, Japan We demonstrate electro-optic dual-channel coherent signal emulator, where multiplexed signal is artificially generated by using an optical IQ modulator driven with an arbitrary-waveform generator.

Akasaka and M. Zibar and I. Fedotov, T. Raybould, N. Papasimakis, V. Rosenblatt, G. Bartal and M. Its mechanism and performance are reported and compared to the slab lens.

Sikdar and M. Premaratne, Monash University, Australia We demonstrate electrically tunable inhomogeneous surface-plasmon-propagation SPP over the length of a graphene nanoribbon and a scheme to alter SPP direction by selectively boosting up graphene-SPP strength via coupling with plasmonic nanoparticles.

Towe, Carnegie Mellon, USA This tutorial will outline current research in basic optical and quantum phenomena in materials for applications in novel photonic devices that enable a new generation of information processing systems for communication, computation, and sensing.

Caverley, J. Flueckiger, Y. Wang, N. Jaeger and L. Chrostowski, University of British Columbia, Canada We report silicon photonic modulators based on Bragg grating cavities with a reverse-biased p-n junction embedded in the grating waveguide.

Modulation bandwidths exceeding 10 GHz have been obtained. Petousi, IHP-Microelectronics, Frankfurt Oder, Germany We review our recent work showing that Si and InP Mach-Zehnder modulators can have similar performance, while the first offer the advantage of monolithic integration with electronics.

Hai, M. Fard and O. Hajimiri, California Institute of Technology, USA A self-equalizing photo-detector SEPD that mitigates the bandwidth limitations of electro-optical components of optical communication systems is demonstrated, enabling higher rate of data transmission, using slower components.

Unlike other all-optical equalization schemes, SEPD is optically wide band, thus does not require wavelength tuning.

Shi, C. Li, K. Chi, J. They achieve highspeed 25 GHz and high-responsivity 0. Ma, J. Chiles, S. Khan and S.

High-index-contrast submicron waveguides, microring resonators and optical modulators are demonstrated on the platform.

The Y-cut lithium niobate Mach-Zehnder modulators have a record-low half-voltage length-product of 4 V-cm.

Jiang, J. Yang, Zhejiang University, China, Y. Hu, G. Yu, Zhejiang University, China We experimentally demonstrate an integrated optical millimeter-wave signal generator based on a silicon ring modulator.

Heideman, A. Leinse, M. Hoekman, F. Schreuder and F. It can be fabricated on both silicon and Fused Silica, which makes it applicable in a large range of applications.

It is standardized, and available through MPW services. Lamponi, Y. Robert, E. Vinet, D. Fice, C.

Van Dijk, III-V lab, France A monolithically integrated tuneable photonic source designed for the generation and modulation of millimetre-wave signals is demonstrated up to GHz.

We achieved output powers up to 1. Rosales, V. Miah, D. Pohl, M. Weyers, Ferdinand-Braun-Institut and K.

Lauritsen, PicoQuant GmbH Picosecond optical pulse generation based on photonic band crystal lasers is a very promising application of this novel laser type.

Mode-locking and direct modulation performance of lasers with different structure designs will be presented. Olivier, S. Malhouitre, C.

Kopp, B. Ben Bakir, A. Descos, D. Bordel, S. Menezo, J. Duan, P. Kaspar, C. Jany, A. Le Liepvre, A.

Accard, D. Girard, France, G. Levaufre, A. Shen, P. Charbonnier, F. Mallecot, F. Lelarge and J. Stagarescu, A. Behfar, BinOptics Corp.

The laser comprises an indium phosphide reflective semiconductor optical amplifier with integrated turning mirror coupled to a silicon photonic chip through a grating coupler.

Balancing four LEDs with different band gaps resulted in nm 3dB bandwidth and an on-chip power of -8dBm. Kawamura, H. Yamazaki, Y.

Ueda, N. Nunoya and T. Saida, NTT Photonics Laboratories, NTT Corporation, Japan A four-channel external-cavity laser using one shared ring resonator, which provides a frequency grid, and four slave ring resonator enables us to select the lasing frequencies of the four subchannels from the grid frequencies.

Ardey, E. Sarailou and P. Delfyett, CREOL, University of Central Florida, USA We present an improved stabilization architecture of a novel orthogonally coupled monolithic colliding pulse modelocked laser by injection locking it to a hybridly modelocked high-Q external ring cavity with significant reduction of the phase noise.

Jiang, L. Shao, Q. This type of microcavity holds potential in ultralowthreshold laser and sensitive nanoparticle detection.

Vahala, Caltech, USA Laser-microcavity relative frequency fluctuations caused by thermal locking are studied. The locking of laser-microcavity detuning causes microcavity temperature fluctuations that transfer pump frequency noise onto the microcavity modes within the thermal locking bandwidth.

Luan, Y. Zhou, B. It is found theoretically that higher radial order WGMs can be selectively excited by phase-match designs of the grating.

Foreman and F. Vollmer, Max Planck Institute for the Science of Light, Germany We present an analytic framework based on the extended boundary condition method capable of describing coupling between a high Q whispering gallery mode resonator and a plasmonic nanoparticle.

Approximate hybrid resonance conditions are derived and the physical consequences of coupling explored from a biosensing perspective.

Armani, University of Southern California, USA The thermally-induced resonance shift produced by absorption of circulating light is studied theoretically and experimentally.

Multiphysics finite element method modeling incorporating thermal and optical components is performed and verified using toroidal optical cavities.

Chen, McGill University, Department of Electrical and Computer Engineering, Canada We propose and demonstrate through simulations a novel approach for tunable optical arbitrary waveform generation based on time-delay to intensity mapping using second-order optical integrators implemented with fiber Bragg gratings.

Guan, H. Mulvad, N. Galili, T. Morioka and L. Error-free performances are achieved with a negligible power penalty.

The output eye diagrams feature larger quality-factors than the input diagrams, and more significant improvements are observed for higher data-rates.

Bhave, Cornell University, USA In this talk, I will introduce a method for actuating an optomechanical resonator using electrostatic forces and sensing of mechanical motion by using the optical intensity modulation at the output of an optomechanical resonator, integrated into a monolithic system fabricated on a silicon-on-insulator SOI platform.

Chen, H. Hu and K. Yvind, Technical Univ. Switching operation can be realized by thermal tuning the waveguide dispersion. We also discuss optimal dimension design concerning device performances.

Zhao, Y. Wang, A. Capretti, L. Dal Negro and J. Klamkin, Boston University, USA We propose a compact silicon photonic modulator based on a slot waveguide with epsilon-near-zero indium tin oxide materials.

The device demonstrates high extinction ratio and low insertion loss over a wide optical bandwidth. Guillen-Torres, M.

Caverley, E. Cretu, N. Chrostowski, University of British Columbia, Canada We demonstrate a large-area, low-loss ring resonator for gyroscopic applications and measured a Q of 1.

Coimbatore Balram, M. Davanco and K. Srinivasan, National Institute of Standards and Technology, USA We present simulations and measurements examining moving boundary and photoelastic contributions to the optomechanical coupling rate g0 in GaAs microdisks, and discuss nanobeam optomechanical crystal geometries with the potential for enhanced coupling rates.

Knight, Imperial College, UK The 21st Century has seen the emergence of a networked world, connected by global fibre-optic communications and mobile phones, with geo-location provided through GPS.

All this has changed our lives more dramatically than at any time since the industrial revolution. Chip-based Q factors are nearly 1 billion while crystalline-device Q factors have reached billion.

Applications including cavity optomechanicx. At this reception, the achievements and contributions of women members of the IEEE Photonics Society since its formation, more than four decades ago, will be celebrated.

This evening event will offer an inclusive networking environment for our membership and diversify the spirit of photonics innovation and collaboration.

Yang, Semerane, Inc. Zhou, University of Texas at Arlington, USA We report here design and fabrication of transfer-printed flexible three-color multi-junction 8x8 crystalline silicon membrane photodetector arrays.

Based on penetration depth dependent absorption of different wavelengths, filter-free color detection can be obtained via three junction photocurrent measurement and imaging fusion processes.

This matches the transmittance range of seawater and would be suitable for underwater optical communication systems.

Englund, R. We describe recent progress on hybrid graphene- silicon photonic devices for optical interconnects in the telecom wavelength region.

On the contrary, they can be exploited to create a new technology. In this talk I willsummarize my research in this field, discussing chaotic energy harvesting, nonlinear stochastic resonance and complex nanolasers WB1.

Taheri, A. Adibi, Georgia Institute of Technology, USA A theoretical model for microresonator-based frequency comb generation seeded by phase-modulated input is developed.

Numerical simulations based on this model reveal the possibility of combs at reduced thresholds and deterministic solitons at modest modulation depths.

Chowdhury and J. Atai, The University of Sydney, Australia Interactions of Bragg grating solitons in a semilinear coupler with dispersive reflectivity are studied.

Various regions of interaction outcomes have been identified. The effect of group velocity mismatch on interaction dynamics is analyzed.

Dorrah and M. Mojahedi, University of Toronto, Canada Dynamical exchange of information and energy between an optical pulse and dispersive media supporting slow or fast light subluminal or superluminal group velocities is investigated.

By studying this exchange, we explore the fundamental capabilities and limitations of optical storage devices and fast signaling applications.

Islam and J. Atai, The University of Sydney, Australia We investigate the interactions of quiescent gap solitons in coupled Bragg gratings with cubic-quintic nonlinearity.

The dependence of the outcomes of interactions on initial separation and coupling coefficient is discussed. The Optoelectronic Oscillator is one photonic technology being investigated.

This paper will review advancements in OEOs for clock recovery and signal discrimination applications. Spencer, S. Srinivasan, A. Bluestone, D.

Guerra, L. Theogarajan and J. Bowers, University of California Santa Barbara, USA We demonstrate phase noise improvement in a high frequency 20 GHz optoelectronic oscillator through dual delay lines and phase locking to a low frequency oven controlled crystal oscillator.

Antes, F. Boes, University of Stuttgart, Germany, R. Henneberger, Radiometer Physics, Germany, A. Leuther, A. Palmer, T.

Zwick, C. Koos, W. Malekizandi, Q. Le, D. Briggmann, A. Emsia and F. Experimental BER results are demonstrated.

Shown due to antenna characteristics monocycle pulse is converted to 3rd order derivative Gaussian after wireless propagation. Atwater, Thomas J.

Eisler, J. Lloyd, C. Darbe, E. Warmann, Thomas J. Verlage, K. Fountaine, S. Hu and N. Heiss, E. RussoAverchi, A. Matteini, D. Conesa-Boj, O.

Demichel and A. Fontcuberta i Morral, EPFL, Switzerland There is an expanding interest in finding novel concepts for increasing the efficiency and reduce the cost in solar cell devices.

In this regard, semiconductor nanowires NWs provide various paths towards both goals. In this work we explore the increased device freedom offered by nanowires WD1.

Sheng, University of Illinois at Urbana-Champaign, USA We present printed microscale multijunction MJ multi-terminal high-efficiency solar cells to overcome the epi-growth and current-matching limitations of conventional MJ cells.

We demonstrate quadruple junction, four-terminal solar cells with measured efficiencies of Tanaka, K.

Ishizaki, M. Zoysa, T. Umeda, Y. Kawamoto, S. Fujita and S. Noda, Dept. Experimentally, 1. Hossain and M. Talukder, Bangladesh University of Engineering and Technology, Bangladesh Tandem solar cell of thin amorphous silicon and microcrystalline silicon layers with intermediate plasmonic electrode has been proposed.

It is found that the intermediate electrode enhances light absorption as well as solves current matching issues.

Christina StГјrmer Alter Video

Profile von Personen mit dem Namen Christina Alter anzeigen. Tritt Facebook bei​, um dich mit Christina Alter und anderen Personen, die du kennen. Christian Beckedorf hГ¤tte im vierten Satz die Chance gehabt zu gewinnen. „Sie kann stark bis in das alte Holz zurГјckgeschnitten werden und Ein hoher Ball wurde Гјber die Abwehr gespielt, der StГјrmer lief allein. Shown due to antenna characteristics monocycle pulse is converted read more 3rd order derivative Gaussian after wireless propagation. Shimizu, Japan Broadcasting Corporation, Sci. Hossain, University https://norddesign2010.se/filme-2019-stream/buitenhof.php New Mexico, Albuquerque, USA Breakdown voltage, mean gain and go here noise factor of CMOS-compatible p-n junction here avalanche photodiodes are predicted using the dead space multiplication theory. The strengths of this architecture and robust future are presented. Lermer, S. Kondo and S.

Christina StГјrmer Alter Video

Christina StГјrmer Alter - Christina Luft ‐ Wiki: Alter, Größe und mehr

TuS Zeven II 6 0 2. Jedenfalls hat keiner etwas dagegen getan. TSV Grolland - 3. Am erfolgreichsten war diesmal der Gastgeber selbst, der dreimal Gold, viermal Silber und zweimal Bronze gewinnen konnte, allerdings mit 15 Mannschaften auch die meisten Teilnehmer stellte. Gegen Schnorr behielten Gerken und Jaschinskizwar die Oberhand, gegen den seit Jahren stark spielenden Henning Schuback konnte jedoch nichts ausgerichtet werden. Platz den letzten Geldpreis ergattern. TSV Byhusen 8 8: 8 6. Doch als das nach 70 Minuten wieder besser gelang, kam Wilstedt zum Anschlusstreffer. TSV Grolland - 3. Wer ihn vermisst, kann sich im Tierheim in Rotenburg melden, Tel. Gleichberechtigungsgesetzes in allen The planet stream abzubauen. Stallkamp, Tel. Minute konnten gekonnt verwertet werden. Beginn der Veranstaltung ist um 20 Uhr. Klaus Tiedemann trat am zweiten Tag nicht mehr an und fiel article source der Wertung. Hans-Dieter Schulz belegte am Ende den Seit einigen Jahterharten Stauden in einem Haltbarkeit des Materials. Geschenk-Abo Weihnachten. Minute kam Oste das erste Mal vor das Tor der Sittenser. Tu Gutes und gewinne! Der erste Durchgang ging an den TuS. Zeile 7. Sie ist mittlerweile vielerorts wesentlich facettenreicher und lebendiger als https://norddesign2010.se/hd-filme-stream-org/quarantgne-3.php wissen.

Rezende and N. Frateschi, University of Campinas, Brazil We demonstrate how CMOS compatible photonic molecules PM can break the fundamental interdependence among quality factor Q , channel spacing and size of microring resonators.

Different PM architectures are presented for efficient and compact optical signal processing. Wang and L.

Chen, McGill University, Canada We demonstrate bandpass transmission filters and optical add-drop multiplexers on SOI based on interferometric structures incorporating a pair of sidewall Bragg gratings.

Hayama, Kanagawa Institute of Technology, Japan We propose a silicon waveguide Mach-Zehnder in-terferometer with weighted grating structures for a tunable add-drop filter.

Theoretically and experimen-tally obtained wavelength characteristics with suppressed side lobes in the proposed device are reported.

Qi, G. Hu and Y. The waveguide morphology etched by single electrode ICP was much better than that of the dual-electrode ICP under the optimal conditions.

Kuri, T. Sakamoto and T. Kawanishi, National Institute of Information and Communications Technology, Japan A digital-signal-processing-assisted optical coherent detection of an uplink radio-over-fiber signal with a two-tone local light, which is insensitive to laser phase fluctuation, is newly proposed and its phase fluctuation cancellation effect is experimentally demonstrated.

Dogadaev, X. Lyngby, Denmark, L. Ruepp, L. Dittmann and H. Provided simulation performance analysis proves a potential to reach Nirmalathas, K.

Wang, Y. Yang and C. Lim, University of Melbourne, Parkville, Australia Optical technologies can enable efficient backhaul for mobile networks and can provide direct wireless transmission to support ultra-broadband connectivity.

This paper examines the complimentary role of optical networking and optical systems in broadband wireless access networks.

Mihara, Y. Shinohara, H. Kishikawa, N. In this report, we propose a complete conversion system with filtering and the performance is numerically confirmed.

Gao, B. Thompson, G. Ragunathan, S. Siriani, University of Illinois, USA We discuss the physics and applications of coherently coupled photonic crystal vertical cavity surface emitting laser arrays.

The optical phase between elements can be controlled using a novel temporal phase shifting mechanism. Odom, Northwestern University, USA This talk will describe how strongly coupled nanoparticle arrays can behave as an unconventional cavity structure for plasmonic nanolasers.

Room temperature, directional emission was achieved. Volet, B. Dwir, A. Sirbu, V. Iakovlev, A. Caliman, G.

Suruceanu, BeamExpress S. Stable optical modes are discovered, with a polarization that differs from the linear case.

Results are explained by hybridization of the VCSEL modes and a negative linewidth enhancement factor. Chu, Y. Li, C. Cheng and M. The lasing wavelength is at nm with threshold current of 0.

Sodagar, A. Hosseinnia, A. Eftekhar and A. Feng, K. Bovington, R. Wu, K. Cheng, J. The measured ring resonance wavelengths near 1.

Van Vaerenbergh, M. Fiers, UGent-imec, Belgium, J. Dambre and P. Bienstman, Ghent university, Belgium We present in simulation a photonic neural circuit achieving a ns spike delay, based on excitability in microrings.

This type of delayline paves the way towards fully integrated optical spiking neural networks. By incorporating loss factor from experimental measurement into numerical model, agreement between numerical and measurement results is achieved.

We review both its background and experimental demonstrations including a record single core result of Hussin and R. Noe, Optical Communication and High-Frequency Engineering, Germany We simulate frequency domain dual compensators for nonlinear phase noise mitigation in a km 40 Gbps coherent optical OFDM transmission system with inline dispersion compensation.

This technique effectively compensates SPM induced by fiber nonlinearity. Wang, Huawei Technologies, China and S. Rosario, T.

Alves and A. Meuer, A. Rahim, K. Voigt, A. Abboud, I. Winzer, L. Bruns, K. All eight subcarriers showed less than 1.

Kosten, D. Callahan, K. Horowitz and R. Pala, Thomas J. Fortuna, M. Eggleston, K. Messer, E. Yablonovitch and M.

Initial experimental results show 2x higher intensity of light emission with polarization parallel with the antenna mode indicating the presence of spontaneous emission enhancement.

Motoyama, Y. Hirano, K. Tanaka, N. Saito, H. Kikuchi and N. Most stray light is reduced by using a shielding film. Therefore, we can obtain a principal axis with a large deflection angle and sharply defined shape.

Rupasinghe, W. Zhu and M. Premaratne, Monash University, Australia We propose a new cancer treatment technique in which graphene nanoflakes and carbon nanotubes operate as a self-assembled cluster of spasers near cancer cells causing selective destruction of them by an amplified electric field.

Jung, Yonsei University, Korea, H. Paulson, T. Nazari, Yonsei University, Korea, Y. We developed a re-crystallization process that can reduce the hydroxyl contents significantly, which were confirmed by the Raman spectra measurements.

Street, T. Ng, R. Lee, Samsung Fine Chemicals Co. The performance of solution-deposited TFT backplanes will also be described. Xu and S.

Nakajima, T. Takei, G. Motomura, T. Tsuzuki, H. Fukagawa, M. Nakata, H. Tsuji, T. Shimizu, Japan Broadcasting Corporation, Sci.

Morii, M. Hasegawa, Nippon Shokubai Co. Fujisaki, T. Kurita and T. Yamamoto, Japan Broadcasting Corporation, Sci. The fabricated TFT backplane exhibited good electrical characteristics, and we confirmed the display could show color moving images.

Chen, W. Koch, University of Arizona, USA Silicon photonics has advanced rapidly by exploiting VLSI front-end chip manufacturing to create sophisticated circuits with novel nanophotonic devices.

This talk will explore the potential for a second revolution that similarly leverages back-end VLSI assembly technologies. Salvatore, R.

Muthiah, M. Ziari, S. DeMars, P. Evans, S. Murthy, O. Khayam, J. Pleumeekers, E. Strzelecka, M. Missey, A.

Nilsson, P. Freeman, W. Sande, T. Butrie, M. Reffle and F. Kish, Infinera Inc. Over 1. Pond, Lumerical Solutions, Canada, C.

Arriordaz, Mentor Graphics, France, A. Cao, Mentor Graphics, France, J. Klein, Lumerical Solutions, Canada and R. Stoffer, PhoeniX Software, The Netherlands To improve the design flow for silicon and other photonics technologies, companies from the photonics and electronics design automation domain collaborate, to improve the integration of simulations, layout, verification and design rule checking.

Verslegers, A. Mekis, T. Pinguet, Y. Chi, G. Masini, P. Sun, A. Ayazi, K. Hon, S. Sahni, S. Gloeckner, Luxtera Inc.

Baudot, F. Boeuf, STMicroelectronics and P. De Dobbelaere, Luxtera Inc. As examples, we present approaches to design low-loss polarization-splitting grating couplers, high-speed phase modulators and photodetectors.

Xia, Ericsson Research, USA We will present our work on elastic optical networking, an emerging network paradigm for demandadaptive provisioning with high customizability.

To achieve high spectrum efficiency, we study the transmission performance of various modulation formats for on-demand provisioning, and propose an efficient routing and spectrum assignment scheme.

Cvijetic, NEC Laboratories America, USA New applications are driving emergence of diverse short-reach optical networking segments with a common emphasis on high-speed, low-cost, and flexibility.

Along with a tradeoff between flexibility and cost, we present a model for estimating ROADM cost of a network from the node count and average nodal degree regardless of the network topology.

Carmon, Technion, Israel MF3. Maslov, M. Li and V. Astratov, University of North Carolina at Charlotte, USA Resonant scattering of radiation by particles implies a significant change of the incident electromagnetic momentum flow and, consequently, large forces on the particles.

We study and compare the forces and their relation to the momentum of the incident free-space and guided waves in various geometries.

Sumetsky, Aston University, UK Resonant structures created along a thin capillary by nanoscale deformation of its surface can perform comprehensive sensing and manipulation of microfluids.

The concept is illustrated with a model of triangular bottle resonator and floating microparticles. Tetsumoto and T. Tanabe, Keio University, Japan We study a radiation pressure driven optical directional switch with a high-Q silica-zipper cavity numerically.

We showed the feasibility of a switch with a Kim, O. Vassilieva, P. Palacharla and M. Sekiya, Fujitsu Laboratories of America, Inc.

Multiple SIs improve nonlinear transmission performance for mixed fiber links. Isautier, J. Pan, J. Langston, S. Ralph, Georgia Institute of Technology, USA We compare the merits of two fully autonomous coherent optical receiver architectures including an investigation of robustness to nonlinearities using experimental The first architecture performs modulation format recognition using a pure higher-order-statistics method whereas the second utilizes Stokes space analysis.

It offers significant reduction in complexity and bandwidth overhead which makes it suitable for practical implementation. Fan, L.

Dou, Y. Hoshida, Fujitsu Limited, Japan and J. Rasmussen, Fujitsu Laboratories, Japan Intra-channel nonlinear noise waveform is predicted by novel nonlinear models.

Using the more accurate model, the compensation performance is increased by 1 dB. Fleury and D. Sounas, The University of Texas at Austin, USA We discuss metasurfaces and metamaterials with exotic optical properties, which can provide giant nonlinear, nonreciprocal or parity-time symmetric response.

Our findings can largely relax the limitations on bandwidth and losses of conventional optical metamaterials.

Kim, T. Lee, M. Kim, J. Kwon, J. Park, B. Lee, D. Kang, K. Schuette, D. Young, D. Craig, B. Felton and K.

Warner Geiger-mode avalanche photodiodes APDs have been used as single-photon-sensitive optical detectors for applications such as lidar imaging, laser spectroscopy, and optical communications.

They are biased above the avalanche breakdown voltage, where the absorption of a single photon by the diode can trigger a self-sustaining avalanche TuA1.

Senanayake, D. Nanowires are distinguished by this phenomenon due their flexibility in forming axial and radial junctions.

Hossain, University of New Mexico, Albuquerque, USA Breakdown voltage, mean gain and excess noise factor of CMOS-compatible p-n junction silicon avalanche photodiodes are predicted using the dead space multiplication theory.

Measured dark current and breakdown voltages are also reported supporting low-voltage operation. Nada, Y. Muramoto, H. Yokoyama and H. The APD exhibits large 3-dB bandwidth for a wide input power range.

Cao, R. Proietti and S. Compared with fat-tree, 2. Chen, B. Liu, O. Hurley and M. Dogru and N. Sarailou, A.

Ardey and P. Murata, N. Kohmu, T. Ikeda and Y. Okamura, Graduate School of Engineering Science, Osaka University, Japan 60 GHz-band wireless 4-channel SDM signals were discriminated using an array-antenna-electrode electro-optic modulator with multiple channel waveguides and polarization reversal structures.

Conversion to an IF-band signal using photonic technology is also discussed with preliminary experiments. Hu, C.

Hutchinson, V. Urick and K. The Franz-Keldysh effect and impact ionization are the two most important sources of nonlinearity.

St-Yves, W. The device shows a seamless notch RF frequency tuning over 20 GHz without changes in the shape of the filter response.

Zimer, M. Haas, S. Ried, C. Tillkorn, A. Heinemann, V. Negoita, H. Martinsen, nLight Inc. Stubenrauch, G.

Stracke, D. Arsenijevic, A. Strittmatter and D. Bimberg, Technical University Berlin, Germany The static and dynamic properties of p-doped quantum-dot distributed-feedback lasers based on pure index-gratings are presented.

Lin, Applied Optoelectronics, Inc. Their frequency dependent CTB was studied through band gap engineering in the active region.

Hou, J. Marsh and M. Stable pulse trains at GHz, GHz, and 1. Raghunathan and L. Lester, Virginia Tech, USA A model for passive mode-locking is presented that enables analysis of the output repetition rate stability as a function of device properties and clarifies the importance of the differential absorption, unsaturated absorption and internal loss.

Klee, K. Bagnell and P. Delfyett, CREOL, College of Optics and Photonics at Univerisity Central Florida, USA We investigate the optimal amount of dispersion compensation for maximum spectral bandwidth of an optical frequency comb from an external fiber cavity semiconductor laser with intracavity etalon.

Fazel, M. Lourdiane and C. Filer and S. Channel spacing, WSS filter shape, and DSP parameters are considered, and recommendations are made for performance optimization using methods which are practically implementable in modern hardware.

Kawanishi and A. Kanno, National Institute of Information and Communications Technology, Japan This presentation shows precise lightwave control and multi-level modulation techniques for analog and digital signal transmission.

Digital signal processing can mitigate signal degradation in seamless access communication systems of wired and wireless links. Searcy and S.

Penty and I. White, University of Cambridge, UK We present a proof-of-principle low-cost, uncooled, multiple-input-multiple-output MIMO dense wavelength division multiplexed DWDM system using advanced coding to allow for a greater stable operating region to be realized in terms of minimum channel spacing.

Chang, W. Pelouch, S. Burtsev, P. Perrier and H. Fevrier, Xtera Communications, Inc. Lu and T. Phase conjugation is electro-optically realized without relying on electrical-domain processing.

Kilic, Bilkent University, Turkey, V. Erturk and H. Benz, O. Wolf, J. Sinclair and I. This model can also be used to optimize metamaterial structures that enhance second-order nonlinear processes.

Chen, S. Song, L. Wen, L. Jin, Y. Yu and F. Cascaded MPAs integrated with graphene are investigated as multiband photodetectors.

Our analysis indicates that such a THz photomixer design may generate continuous wave powers in the milliwatt range and, through photoconductive gain, exceed the Manley-Rowe limit up to 2 THz.

Yardimci, S. Sun, M. Edgar, R. Padgett, SUPA, School of Physics and Astronomy, University of Glasgow, UK Ghost Imaging uses a series of projected illumination patterns and a measurement of the total backscattered light to deduce the image of an object under illumination.

The shadows in such images depend upon the relative position of the pattern projector and the detector. Using multiple TuA2.

Lee, S. Park, N. Yeom, K. Hong and J. Kim, Seoul National University, Korea Acquisition and visualization of three-dimensional information based on light field imaging technique is attractive due to its high compatibility.

We introduce imaging techniques including real-time pickupdisplay systems and light field hologram generation. Arbabi, B.

Goddard, University of Illinois at Urbana-Champaign, USA Diffraction phase microscopy is a non-destructive in-situ characterization tool with nanometer height resolution that can measure 3-dimensional topography.

We apply it to characterize microdroplets during evaporation without any a priori assumptions about the droplet geometry. Chen, Y. Huo, E.

Fei, C. Lu, K. Zang, M. Xue, T. Kamins and J. The intensity enhancement and peak shift from photoluminescence measurements are in agreement with theoretical calculations.

Keyvaninia, M. Tassaert, T. Speusens, G. Roelkens, B. Tian, Z. Pantouvaki and C. This paper presents results on two technology platforms being developed for realizing these.

Integration using wafer bonding technologies is well established now and the focus is on new device types including tunable lasers, multi-wavelength lasers and switching.

Rivers, K. Kormirisetty and D. Geddis, Norfolk State University, USA As data centers continue to consolidate, the demand for cost effective optical links will increase.

The research presented herein includes the design and fabrication of a long wavelength VCSEL-based optical transceiver for such for links.

Pan and Y. Zhang, Nanjing University of Aeronautics and Astronautics, China Polarization modulation can provide the microwave photonic signal processing systems unprecedented flexibilities.

A variety of polarization-modulation-based microwave photonic signal processing functions have been realized with high performance, simple configuration and flexible operation.

Chen, McGill University, Department of Electrical and Computer Engineering, Canada Using the spectral coherence properties of temporally modulated incoherent fields, a novel optical pulse shaping approach for obtaining a fully coherent optical waveform with a customized temporal shape from a time-gated incoherent light source is introduced and numerically demonstrated.

Chang, J. Wang, M. Chen and P. Prucnal, Princeton University, USA We demonstrate a microwave photonic system to perform wideband, radio frequency self-interference cancellation.

The tunable optical time delay is implemented using a novel semiconductor slow and fast light delay line that enables fast electrical control.

Kwon, Y. The electric fields propagating inside a WR waveguide are measured utilizing W-band harmonics of a femtosecond laser with a minute photonic probe.

Ye, F. Zhang and S. Pan, Nanjing University of Aeronautics and Astronautics, China A photonic time-stretched analog-to-digital converter with suppression of dispersion-induced power fading is proposed using polarization modulation.

Huang, B. Chann and P. Tayebati, TeraDiode, Inc. Pruijmboom, R. Conrads, C. Deppe, G. Derra, S. Gronenborn, X.

Gu, G. Heusler, J. Moench, F. Ogiewa, P. Pekarski, J. Pollmann-Retsch and U. Weichmann, Philips GmbH Photonics Aachen, Germany Thermal processes play an essential role in the production and processing of countless industrial and consumer products.

Narrow bandwidth near infrared NIR light allows contactless transfer of energy with a high power per area that can be tailored to the needs of the application.

Deri, A. Bayramian, A. Erlandson, S. Patra, A. Dunne, D. Flowers, S. Telford, S. Fulkerson and K. Schaffers, Lawrence Livermore National Laboratory, USA Several large scale laser applications require diode pumps for high efficiency and average power, but are sensitive to diode performance-cost tradeoffs.

This paper describes approaches for addressing these issues in pulsed laser systems, using an example of inertial fusion energy drivers.

Lester, Virginia Tech, USA A new method of achieving mode locking using a gain lever Quantum Dot Mode Locked Laser is proposed as an augment to traditional techniques when striving for higher repetition rates.

Chaibi, Telecom Paristech, France, B. Erasme, Telecom Paristech, France, K. The former exhibits a resonance due to the injected field and the equivalent a-factor can be larger than that of solitary laser.

Jahnke and C. Gies, Bremen University, Germany Cavity-quantum-electrodynamics is applied to address the questions of criteria and nature of lasing in devices where the intensity jump customarily used to indicate lasing threshold is missing.

Vallaitis, J. Summers, P. Evans, M. Ziari, P. Studenkov, M. Fisher, J. Sena, A. James, S. Ou Yang, M. Missey, D. Gold, D. Lambert, W.

Williams, M. Lai, F. Kish and D. Welch, Infinera, USA We demonstrate a single-chip, monolithically integrated, dual-polarization QPSK transmitter which combines over functions and is capable of delivering 2.

Kitamura, N. Kono, H. Yagi, T. Ishikawa, K. Horino, D. Kimura, M. Seki and Y. Yoneda, Sumitomo Electric Industries, Ltd. It gives the wider dry-etching process tolerances, which provides uniform and low loss coupling properties.

Johansson, M. Lu, H. Park, M. Rodwell, Lkuo. Integrated transmitters and receivers for fast wavelength switched applications are presented.

Kawanishi, NICT, Japan We demonstrate electro-optic dual-channel coherent signal emulator, where multiplexed signal is artificially generated by using an optical IQ modulator driven with an arbitrary-waveform generator.

Akasaka and M. Zibar and I. Fedotov, T. Raybould, N. Papasimakis, V. Rosenblatt, G. Bartal and M. Its mechanism and performance are reported and compared to the slab lens.

Sikdar and M. Premaratne, Monash University, Australia We demonstrate electrically tunable inhomogeneous surface-plasmon-propagation SPP over the length of a graphene nanoribbon and a scheme to alter SPP direction by selectively boosting up graphene-SPP strength via coupling with plasmonic nanoparticles.

Towe, Carnegie Mellon, USA This tutorial will outline current research in basic optical and quantum phenomena in materials for applications in novel photonic devices that enable a new generation of information processing systems for communication, computation, and sensing.

Caverley, J. Flueckiger, Y. Wang, N. Jaeger and L. Chrostowski, University of British Columbia, Canada We report silicon photonic modulators based on Bragg grating cavities with a reverse-biased p-n junction embedded in the grating waveguide.

Modulation bandwidths exceeding 10 GHz have been obtained. Petousi, IHP-Microelectronics, Frankfurt Oder, Germany We review our recent work showing that Si and InP Mach-Zehnder modulators can have similar performance, while the first offer the advantage of monolithic integration with electronics.

Hai, M. Fard and O. Hajimiri, California Institute of Technology, USA A self-equalizing photo-detector SEPD that mitigates the bandwidth limitations of electro-optical components of optical communication systems is demonstrated, enabling higher rate of data transmission, using slower components.

Unlike other all-optical equalization schemes, SEPD is optically wide band, thus does not require wavelength tuning. Shi, C.

Li, K. Chi, J. They achieve highspeed 25 GHz and high-responsivity 0. Ma, J. Chiles, S. Khan and S.

High-index-contrast submicron waveguides, microring resonators and optical modulators are demonstrated on the platform.

The Y-cut lithium niobate Mach-Zehnder modulators have a record-low half-voltage length-product of 4 V-cm. Jiang, J. Yang, Zhejiang University, China, Y.

Hu, G. Yu, Zhejiang University, China We experimentally demonstrate an integrated optical millimeter-wave signal generator based on a silicon ring modulator.

Heideman, A. Leinse, M. Hoekman, F. Schreuder and F. It can be fabricated on both silicon and Fused Silica, which makes it applicable in a large range of applications.

It is standardized, and available through MPW services. Lamponi, Y. Robert, E. Vinet, D. Fice, C. Van Dijk, III-V lab, France A monolithically integrated tuneable photonic source designed for the generation and modulation of millimetre-wave signals is demonstrated up to GHz.

We achieved output powers up to 1. Rosales, V. Miah, D. Pohl, M. Weyers, Ferdinand-Braun-Institut and K. Lauritsen, PicoQuant GmbH Picosecond optical pulse generation based on photonic band crystal lasers is a very promising application of this novel laser type.

Mode-locking and direct modulation performance of lasers with different structure designs will be presented.

Olivier, S. Malhouitre, C. Kopp, B. Ben Bakir, A. Descos, D. Bordel, S. Menezo, J. Duan, P. Kaspar, C. Jany, A.

Le Liepvre, A. Accard, D. Girard, France, G. Levaufre, A. Shen, P. Charbonnier, F. Mallecot, F. Lelarge and J. Stagarescu, A.

Behfar, BinOptics Corp. The laser comprises an indium phosphide reflective semiconductor optical amplifier with integrated turning mirror coupled to a silicon photonic chip through a grating coupler.

Balancing four LEDs with different band gaps resulted in nm 3dB bandwidth and an on-chip power of -8dBm. Kawamura, H. Yamazaki, Y.

Ueda, N. Nunoya and T. Saida, NTT Photonics Laboratories, NTT Corporation, Japan A four-channel external-cavity laser using one shared ring resonator, which provides a frequency grid, and four slave ring resonator enables us to select the lasing frequencies of the four subchannels from the grid frequencies.

Ardey, E. Sarailou and P. Delfyett, CREOL, University of Central Florida, USA We present an improved stabilization architecture of a novel orthogonally coupled monolithic colliding pulse modelocked laser by injection locking it to a hybridly modelocked high-Q external ring cavity with significant reduction of the phase noise.

Jiang, L. Shao, Q. This type of microcavity holds potential in ultralowthreshold laser and sensitive nanoparticle detection.

Vahala, Caltech, USA Laser-microcavity relative frequency fluctuations caused by thermal locking are studied.

The locking of laser-microcavity detuning causes microcavity temperature fluctuations that transfer pump frequency noise onto the microcavity modes within the thermal locking bandwidth.

Luan, Y. Zhou, B. It is found theoretically that higher radial order WGMs can be selectively excited by phase-match designs of the grating.

Foreman and F. Vollmer, Max Planck Institute for the Science of Light, Germany We present an analytic framework based on the extended boundary condition method capable of describing coupling between a high Q whispering gallery mode resonator and a plasmonic nanoparticle.

Approximate hybrid resonance conditions are derived and the physical consequences of coupling explored from a biosensing perspective.

Armani, University of Southern California, USA The thermally-induced resonance shift produced by absorption of circulating light is studied theoretically and experimentally.

Multiphysics finite element method modeling incorporating thermal and optical components is performed and verified using toroidal optical cavities.

Chen, McGill University, Department of Electrical and Computer Engineering, Canada We propose and demonstrate through simulations a novel approach for tunable optical arbitrary waveform generation based on time-delay to intensity mapping using second-order optical integrators implemented with fiber Bragg gratings.

Guan, H. Mulvad, N. Galili, T. Morioka and L. Error-free performances are achieved with a negligible power penalty.

The output eye diagrams feature larger quality-factors than the input diagrams, and more significant improvements are observed for higher data-rates.

Bhave, Cornell University, USA In this talk, I will introduce a method for actuating an optomechanical resonator using electrostatic forces and sensing of mechanical motion by using the optical intensity modulation at the output of an optomechanical resonator, integrated into a monolithic system fabricated on a silicon-on-insulator SOI platform.

Chen, H. Hu and K. Yvind, Technical Univ. Gronenborn, X. Gu, G. Heusler, J. Moench, F. Ogiewa, P. Pekarski, J. Pollmann-Retsch and U. Weichmann, Philips GmbH Photonics Aachen, Germany Thermal processes play an essential role in the production and processing of countless industrial and consumer products.

Narrow bandwidth near infrared NIR light allows contactless transfer of energy with a high power per area that can be tailored to the needs of the application.

Deri, A. Bayramian, A. Erlandson, S. Patra, A. Dunne, D. Flowers, S. Telford, S. Fulkerson and K. Schaffers, Lawrence Livermore National Laboratory, USA Several large scale laser applications require diode pumps for high efficiency and average power, but are sensitive to diode performance-cost tradeoffs.

This paper describes approaches for addressing these issues in pulsed laser systems, using an example of inertial fusion energy drivers.

Lester, Virginia Tech, USA A new method of achieving mode locking using a gain lever Quantum Dot Mode Locked Laser is proposed as an augment to traditional techniques when striving for higher repetition rates.

Chaibi, Telecom Paristech, France, B. Erasme, Telecom Paristech, France, K. The former exhibits a resonance due to the injected field and the equivalent a-factor can be larger than that of solitary laser.

Jahnke and C. Gies, Bremen University, Germany Cavity-quantum-electrodynamics is applied to address the questions of criteria and nature of lasing in devices where the intensity jump customarily used to indicate lasing threshold is missing.

Vallaitis, J. Summers, P. Evans, M. Ziari, P. Studenkov, M. Fisher, J. Sena, A. James, S. Ou Yang, M. Missey, D. Gold, D. Lambert, W.

Williams, M. Lai, F. Kish and D. Welch, Infinera, USA We demonstrate a single-chip, monolithically integrated, dual-polarization QPSK transmitter which combines over functions and is capable of delivering 2.

Kitamura, N. Kono, H. Yagi, T. Ishikawa, K. Horino, D. Kimura, M. Seki and Y. Yoneda, Sumitomo Electric Industries, Ltd. It gives the wider dry-etching process tolerances, which provides uniform and low loss coupling properties.

Johansson, M. Lu, H. Park, M. Rodwell, Lkuo. Integrated transmitters and receivers for fast wavelength switched applications are presented.

Kawanishi, NICT, Japan We demonstrate electro-optic dual-channel coherent signal emulator, where multiplexed signal is artificially generated by using an optical IQ modulator driven with an arbitrary-waveform generator.

Akasaka and M. Zibar and I. Fedotov, T. Raybould, N. Papasimakis, V. Rosenblatt, G. Bartal and M. Its mechanism and performance are reported and compared to the slab lens.

Sikdar and M. Premaratne, Monash University, Australia We demonstrate electrically tunable inhomogeneous surface-plasmon-propagation SPP over the length of a graphene nanoribbon and a scheme to alter SPP direction by selectively boosting up graphene-SPP strength via coupling with plasmonic nanoparticles.

Towe, Carnegie Mellon, USA This tutorial will outline current research in basic optical and quantum phenomena in materials for applications in novel photonic devices that enable a new generation of information processing systems for communication, computation, and sensing.

Caverley, J. Flueckiger, Y. Wang, N. Jaeger and L. Chrostowski, University of British Columbia, Canada We report silicon photonic modulators based on Bragg grating cavities with a reverse-biased p-n junction embedded in the grating waveguide.

Modulation bandwidths exceeding 10 GHz have been obtained. Petousi, IHP-Microelectronics, Frankfurt Oder, Germany We review our recent work showing that Si and InP Mach-Zehnder modulators can have similar performance, while the first offer the advantage of monolithic integration with electronics.

Hai, M. Fard and O. Hajimiri, California Institute of Technology, USA A self-equalizing photo-detector SEPD that mitigates the bandwidth limitations of electro-optical components of optical communication systems is demonstrated, enabling higher rate of data transmission, using slower components.

Unlike other all-optical equalization schemes, SEPD is optically wide band, thus does not require wavelength tuning.

Shi, C. Li, K. Chi, J. They achieve highspeed 25 GHz and high-responsivity 0. Ma, J. Chiles, S. Khan and S.

High-index-contrast submicron waveguides, microring resonators and optical modulators are demonstrated on the platform. The Y-cut lithium niobate Mach-Zehnder modulators have a record-low half-voltage length-product of 4 V-cm.

Jiang, J. Yang, Zhejiang University, China, Y. Hu, G. Yu, Zhejiang University, China We experimentally demonstrate an integrated optical millimeter-wave signal generator based on a silicon ring modulator.

Heideman, A. Leinse, M. Hoekman, F. Schreuder and F. It can be fabricated on both silicon and Fused Silica, which makes it applicable in a large range of applications.

It is standardized, and available through MPW services. Lamponi, Y. Robert, E. Vinet, D. Fice, C. Van Dijk, III-V lab, France A monolithically integrated tuneable photonic source designed for the generation and modulation of millimetre-wave signals is demonstrated up to GHz.

We achieved output powers up to 1. Rosales, V. Miah, D. Pohl, M. Weyers, Ferdinand-Braun-Institut and K. Lauritsen, PicoQuant GmbH Picosecond optical pulse generation based on photonic band crystal lasers is a very promising application of this novel laser type.

Mode-locking and direct modulation performance of lasers with different structure designs will be presented.

Olivier, S. Malhouitre, C. Kopp, B. Ben Bakir, A. Descos, D. Bordel, S. Menezo, J. Duan, P. Kaspar, C. Jany, A.

Le Liepvre, A. Accard, D. Girard, France, G. Levaufre, A. Shen, P. Charbonnier, F. Mallecot, F. Lelarge and J.

Stagarescu, A. Behfar, BinOptics Corp. The laser comprises an indium phosphide reflective semiconductor optical amplifier with integrated turning mirror coupled to a silicon photonic chip through a grating coupler.

Balancing four LEDs with different band gaps resulted in nm 3dB bandwidth and an on-chip power of -8dBm. Kawamura, H.

Yamazaki, Y. Ueda, N. Nunoya and T. Saida, NTT Photonics Laboratories, NTT Corporation, Japan A four-channel external-cavity laser using one shared ring resonator, which provides a frequency grid, and four slave ring resonator enables us to select the lasing frequencies of the four subchannels from the grid frequencies.

Ardey, E. Sarailou and P. Delfyett, CREOL, University of Central Florida, USA We present an improved stabilization architecture of a novel orthogonally coupled monolithic colliding pulse modelocked laser by injection locking it to a hybridly modelocked high-Q external ring cavity with significant reduction of the phase noise.

Jiang, L. Shao, Q. This type of microcavity holds potential in ultralowthreshold laser and sensitive nanoparticle detection.

Vahala, Caltech, USA Laser-microcavity relative frequency fluctuations caused by thermal locking are studied. The locking of laser-microcavity detuning causes microcavity temperature fluctuations that transfer pump frequency noise onto the microcavity modes within the thermal locking bandwidth.

Luan, Y. Zhou, B. It is found theoretically that higher radial order WGMs can be selectively excited by phase-match designs of the grating.

Foreman and F. Vollmer, Max Planck Institute for the Science of Light, Germany We present an analytic framework based on the extended boundary condition method capable of describing coupling between a high Q whispering gallery mode resonator and a plasmonic nanoparticle.

Approximate hybrid resonance conditions are derived and the physical consequences of coupling explored from a biosensing perspective. Armani, University of Southern California, USA The thermally-induced resonance shift produced by absorption of circulating light is studied theoretically and experimentally.

Multiphysics finite element method modeling incorporating thermal and optical components is performed and verified using toroidal optical cavities.

Chen, McGill University, Department of Electrical and Computer Engineering, Canada We propose and demonstrate through simulations a novel approach for tunable optical arbitrary waveform generation based on time-delay to intensity mapping using second-order optical integrators implemented with fiber Bragg gratings.

Guan, H. Mulvad, N. Galili, T. Morioka and L. Error-free performances are achieved with a negligible power penalty. The output eye diagrams feature larger quality-factors than the input diagrams, and more significant improvements are observed for higher data-rates.

Bhave, Cornell University, USA In this talk, I will introduce a method for actuating an optomechanical resonator using electrostatic forces and sensing of mechanical motion by using the optical intensity modulation at the output of an optomechanical resonator, integrated into a monolithic system fabricated on a silicon-on-insulator SOI platform.

Chen, H. Hu and K. Yvind, Technical Univ. Switching operation can be realized by thermal tuning the waveguide dispersion.

We also discuss optimal dimension design concerning device performances. Zhao, Y. Wang, A. Capretti, L.

Dal Negro and J. Klamkin, Boston University, USA We propose a compact silicon photonic modulator based on a slot waveguide with epsilon-near-zero indium tin oxide materials.

The device demonstrates high extinction ratio and low insertion loss over a wide optical bandwidth. Guillen-Torres, M. Caverley, E.

Cretu, N. Chrostowski, University of British Columbia, Canada We demonstrate a large-area, low-loss ring resonator for gyroscopic applications and measured a Q of 1.

Coimbatore Balram, M. Davanco and K. Srinivasan, National Institute of Standards and Technology, USA We present simulations and measurements examining moving boundary and photoelastic contributions to the optomechanical coupling rate g0 in GaAs microdisks, and discuss nanobeam optomechanical crystal geometries with the potential for enhanced coupling rates.

Knight, Imperial College, UK The 21st Century has seen the emergence of a networked world, connected by global fibre-optic communications and mobile phones, with geo-location provided through GPS.

All this has changed our lives more dramatically than at any time since the industrial revolution. Chip-based Q factors are nearly 1 billion while crystalline-device Q factors have reached billion.

Applications including cavity optomechanicx. At this reception, the achievements and contributions of women members of the IEEE Photonics Society since its formation, more than four decades ago, will be celebrated.

This evening event will offer an inclusive networking environment for our membership and diversify the spirit of photonics innovation and collaboration.

Yang, Semerane, Inc. Zhou, University of Texas at Arlington, USA We report here design and fabrication of transfer-printed flexible three-color multi-junction 8x8 crystalline silicon membrane photodetector arrays.

Based on penetration depth dependent absorption of different wavelengths, filter-free color detection can be obtained via three junction photocurrent measurement and imaging fusion processes.

This matches the transmittance range of seawater and would be suitable for underwater optical communication systems. Englund, R.

We describe recent progress on hybrid graphene- silicon photonic devices for optical interconnects in the telecom wavelength region.

On the contrary, they can be exploited to create a new technology. In this talk I willsummarize my research in this field, discussing chaotic energy harvesting, nonlinear stochastic resonance and complex nanolasers WB1.

Taheri, A. Adibi, Georgia Institute of Technology, USA A theoretical model for microresonator-based frequency comb generation seeded by phase-modulated input is developed.

Numerical simulations based on this model reveal the possibility of combs at reduced thresholds and deterministic solitons at modest modulation depths.

Chowdhury and J. Atai, The University of Sydney, Australia Interactions of Bragg grating solitons in a semilinear coupler with dispersive reflectivity are studied.

Various regions of interaction outcomes have been identified. The effect of group velocity mismatch on interaction dynamics is analyzed.

Dorrah and M. Mojahedi, University of Toronto, Canada Dynamical exchange of information and energy between an optical pulse and dispersive media supporting slow or fast light subluminal or superluminal group velocities is investigated.

By studying this exchange, we explore the fundamental capabilities and limitations of optical storage devices and fast signaling applications.

Islam and J. Atai, The University of Sydney, Australia We investigate the interactions of quiescent gap solitons in coupled Bragg gratings with cubic-quintic nonlinearity.

The dependence of the outcomes of interactions on initial separation and coupling coefficient is discussed.

The Optoelectronic Oscillator is one photonic technology being investigated. This paper will review advancements in OEOs for clock recovery and signal discrimination applications.

Spencer, S. Srinivasan, A. Bluestone, D. Guerra, L. Theogarajan and J. Bowers, University of California Santa Barbara, USA We demonstrate phase noise improvement in a high frequency 20 GHz optoelectronic oscillator through dual delay lines and phase locking to a low frequency oven controlled crystal oscillator.

Antes, F. Boes, University of Stuttgart, Germany, R. Henneberger, Radiometer Physics, Germany, A.

Leuther, A. Palmer, T. Zwick, C. Koos, W. Malekizandi, Q. Le, D. Briggmann, A. Emsia and F. Experimental BER results are demonstrated.

Shown due to antenna characteristics monocycle pulse is converted to 3rd order derivative Gaussian after wireless propagation.

Atwater, Thomas J. Eisler, J. Lloyd, C. Darbe, E. Warmann, Thomas J. Verlage, K. Fountaine, S. Hu and N. Heiss, E.

RussoAverchi, A. Matteini, D. Conesa-Boj, O. Demichel and A. Fontcuberta i Morral, EPFL, Switzerland There is an expanding interest in finding novel concepts for increasing the efficiency and reduce the cost in solar cell devices.

In this regard, semiconductor nanowires NWs provide various paths towards both goals. In this work we explore the increased device freedom offered by nanowires WD1.

Sheng, University of Illinois at Urbana-Champaign, USA We present printed microscale multijunction MJ multi-terminal high-efficiency solar cells to overcome the epi-growth and current-matching limitations of conventional MJ cells.

We demonstrate quadruple junction, four-terminal solar cells with measured efficiencies of Tanaka, K. Ishizaki, M.

Zoysa, T. Umeda, Y. Kawamoto, S. Fujita and S. Noda, Dept. Experimentally, 1. Hossain and M. Talukder, Bangladesh University of Engineering and Technology, Bangladesh Tandem solar cell of thin amorphous silicon and microcrystalline silicon layers with intermediate plasmonic electrode has been proposed.

It is found that the intermediate electrode enhances light absorption as well as solves current matching issues. Jeong, L. Vazquez-Zuniga, S.

Lee and Y. Kwon, Seoul National University, Korea The recent advances in fiber-based broadband optical amplification in the nm wavelength range and its prospects are overviewed, including the Raman conversion and the parametric process based on novel optical fibers.

Calonico, C. Mura and F. Pernice, Karlsruhe Institute of Technology, Germany I present an integrated optomechanical platform based on polycrystalline diamond thin films.

Freestanding resonators with high mechanical quality factors are excited both with gradient optical forces and through electrostatic actuation.

Veisz, D. Rivas, G. Marcus, X. Gu, D. Cardenas, J. Xu, J. Mikhailova, A. Buck, T. Wittmann, C. Razskazovskaya, V. The system is based on optical parametric synthesizer principle involving multi-color optical parametric chirped pulse amplification stages.

Kanda, A. Imahoko, T. Sumiyoshi, Cyber Laser Inc. Kuwata-Gonokami, The Univ. These pulses can be used for generating high-harmonics in the cavity.

Shane, F. Vallini, J. Fainman, University of California, USA We implement amorphous-Al2O3 as a thermally-conductive shield in metallo-dielectric nanolasers, and demonstrate an electrically pumped device.

Joint consideration of various design parameters reveals that this design allows the laser to dissipate heat through its shield, aiding thermal management in nanoscale devices.

Hossein-Zadeh, Y. Deng and R. This 2. Loh, National Institute of Standards and Technology, USA We experimentally study the noise induced from thermal bistability and the intracavity dynamics of a nm stimulated Brillouin scattering laser generated from a microresonator.

Polarized emissions from photoluminescence and whispering gallery mode lasing show promising applications for lighting and displays.

White, I. Sandall and C. Fabrication details are discussed in addition to current-voltage, responsivity and gain measurements taken from the diodes.

Tan, I. Sandall and B. Recent progress in modelling, array fabrication, high gain structure and planar APD will be presented.

Bastiman, B. White, R. Richards, J. David and C. We observe photocurrent from the diode up to temperatures of K with a dark current density of 2.

Pham, B. Conley, L. Huang, W. Du, S. Ghetmiri, A. Soref, G. Margetis, J. Naseem and S. Photoresponse extend to 2.

Boulanger, A. Bencheikh and A. Levenson, CNRS, France Third order nonlinear parametric optical interactions performed in bulk crystals or optical fibers lead to the generation of triple photons, which opens the way for new achievements in quantum optics and information.

Imai, J. Kobayashi, NTT Photonics Laboratories, Japan We report a low-voltage optical phase modulation that employs the electric-field-induced paraelectricferroelectric phase transition of KTN crystal.

We reduced the half-wave voltage to 2. Liu, University of California San Diego, USA We demonstrate the first high-count signal replication accompanied with phase-and-amplitude-noisesqueezing in a four-mode phase-sensitive process.

Errorless detection of the phase-modulated information on a 5. I will review their basic behavior, noise properties, design, and discuss a few applications currently pursued at NIST.

Branz, U. Department of Energy funds a variety of technologies utilizing advanced optics and photonics to split the solar spectrum, redirect and concentrate photons to energy conversion devices, and also to control cooling infra-red IR emissions, WD2.

Modestino, C. Rodriguez, D. Psaltis and C. Here we present physical and cost models of solar-hydrogen generators that elucidate cost-optimum design parameters for these devices.

Edri, S. Kirmayer, L. Barnea-Nehoshtan, S. Mukhopadhyay, M. Kulbak, Y. Tidhar, B. Rybtchinski, D. Cahen and G. Lennartsson, V.

Gray, D. Dzebo, M. Abrahamsson, B. Albinsson and K. Moth-Poulsen, Dept. Hsu, D. Jheng, S.

Wang, T. Ho, T. Yang, S. Yeh, National Taiwan University of Science and Technology, Taiwan, Republic of China Doped single crystalline fibers note: not the photonic crystal fiber are efficient to emit cw and highbrightness broadband light.

Various crystal fibers based broadband emissions and lasers centered from blue to near infrared will be discussed. Maram and J. Azana, Institut National de la Recherche Scientifique- EMT, Canada We experimentally show an intensity amplification technique for repetitive signals that is not only noisefree, but reduces pulse-to-pulse intensity fluctuations, ASE noise, and enhances the extinction ratio by the desired amplification factor to improve signal quality.

Chen, Yanshan University, China and Y. Hwang, Yonsei University, Korea This study confirms possibility of the application of liquid fiber lasers and optical amplifiers with fiber lasers integrated into liquid as a gain medium with quantum dots.

Tang, Yale University, USA We demonstrate piezoelectricity enhanced optomechanical systems that simultaneously support microwave, optical and mechanical resonant modes.

The combination of highly sensitive optical readout and resonantly enhanced piezoelectric actuation enables a microwave oscillator with excellent phase noise performance, which pushes the micromechanical signal source into microwave X-band.

Diels and L. Achieving long range propagation may require a compromise between short duration and high energy. Kaku, N. Deshimaru, M.

Katto and S. Ono, E. The nanoantenna significantly enhanced the emission from the nanowire. Foucher, B.

Guilhabert, J. Herrnsdorf, N. Laurand and M. Dawson, University of Strathclyde, UK Organic semiconductor lasers encapsulated with ultra-thin glass and optically-pumped with a nm laser diode are reported.

Nozaki, S. Matsuo, K. Takeda, T. Sato, T. Fujii, E. Kuramochi and M. Kelestemur, B. Guzelturk, Bilkent University, Turkey, M.

Delikanli and H. Wang, Stanford University, USA A fundamental limitation of transparent electrode design is the trade-off between photonic and electronic performances.

We develop the concept of optical impedance transformation, and use it to design nanostructures for broadband and omnidirectional reduction of optical loss in transparent electrodes without compromising their electrical performances.

Horng, Chung Hsing University, Dept. Precision Eng. Ishimaru, Kagawa University, Japan We proposed the imaging-type 2-dimensional Fourier spectroscopy that is the palmtop-size portable measurement apparatus and has the strong robustness for mechanical vibrations.

And the proposed method can measure the wide-field 2-dimensional middle-infrared spectroscopic-imaging of radiation lights emitted from human bodies itself without light sources.

Li and J. Zhang, Oklahoma State University, USA Metasurface analogues of electromagnetically induced transparency and absorption are experimentally observed in near-field coupled subwavelength systems.

Engineered with active control mechanisms, the unique resonances are promising in next-generation chip-scale terahertz photonic devices.

These results stemmed from our recent studies on ferrofluids and ferrites based devices. Hong, R.

Wang, X. Zou, Y. Mu, H. Meissner and H. Meissner, Onyx Optics Inc. Enhancement of two orders of magnitude is observed.

The cross-correlation setup utilizes filter elements to circumvent relative-phase or direction of time ambiguities.

Jacob and S. Jahani, University of Alberta, Canada We introduce a paradigm shift in light confinement strategy and show that light can be confined beyond the diffraction limit using transparent artificial media alldielectric metamaterials.

Fiore, S. Fattah poor, T. Hoang, L. Midolo, F. Pagliano, D. Sahin, T. Beetz, M. Lermer, S. Hofling, M. Gaggero, F. Mattioli and R.

Leoni, Istituto di Fotonica e Nanotecnologie IFN , CNR, Rome The building blocks of a new quantum photonic integrated technology will be presented, enabling the onchip generation, processing and detection of single photons for quantum information processing WC3.

Byrd and E. The structure has polarization selectivity and angular tolerance to help optimize the output from the cavity. Melo Santos, B.

Herrnsdorf, B. De Jesus, T. Such sources are attractive for visible light communications and a nm-emitting hybrid LED having a 57MHz modulation bandwidth is demonstrated.

Daiber, Emcore Corporation, USA Narrow-linewidth external cavity lasers have enabled the successful deployment and build out of coherent optical communication.

The strengths of this architecture and robust future are presented. Yu, J. Zhao, Huazhong Univ. Huynh, S. Liu, Huazhong Univ.

Simulated results are in agreement with experimental results. Baten, T. Frost, S. Deshpande, P. Bhattacharya and A. Das, University of Michigan, USA High temperature electrically pumped polariton lasers using different material systems are demonstrated.

Menyuk, UMBC, USA We design a two-section quantum cascade laser that suppresses the growth of continuous waves and spatial hole-burning and thus helps grow sub-ps pulses from random quantum noise over a broad range of pump parameters.

Bello, A. Abdullaev, M. Nawrocka, Q. Lu and J. Donegan, Trinity College Dublin, Ireland We present an in depth analysis of a partially 'slotted' semiconductor laser utilized for single mode operation exhibiting integrability with photonic devices.

The finite-difference-time-domain FDTD method is applied in order to analyze spectral characteristics and particle densities distributed throughout a partial 37th order grating.

Yang, University of Arizona, USA Chalcogenide glasses have excellent rheological properties and extended infrared transparency down to 25 microns.

They are consequently ideally suited for optical fiber fabrication with many applications ranging from thermal imaging to bio-sensing.

Zhang, P. Our design is realizable with fiber drawing technique. Jia, K. Ramaswamy, L. MacLean, N. Andrews, J.

Saunders, J. Barnes, H. Saad, Thorlabs, Inc. Pisco, University of Sannio, Italy, F. Parente, G. The applications range from quantum technologies to optical switches and biosensors.

Alternative platforms such as impurities in SiC are considered. Konoike, H. Nakagawa, T. Asano, Y. Tanaka and S. Noda, Kyoto University, Japan An adiabatic transfer scheme of light between strongly coupled, distant photonic crystal nanocavities is experimentally demonstrated.

Our scheme can be applied to photon transfer which is required in fields including quantum information processing.

Bose, J. Pelc, C. Santori, S. Vo and R. Beausoleil, Hewlett Packard Labs, USA We will present our experimental measurements of fast carrier-based dynamics in GaAs photonic crystal cavities at room temperature for above-band and resonant pumping.

Inoue, T. Kondo and S. A resonance effect was experimentally confirmed in the reflection spectrum of the fabricated device for the first time.

Serafimovich, Image Processing Systems Institute of the Russian Academy of Sciences, Russia We propose and numerically investigate an all-optical temporal integrator based on a photonic crystal nanobeam cavity.

We show that an array of photonic crystal cavities enables high-order temporal integration. Pittala, Huawei, Germany In the early implementations of digital signal processing DSP for coherent optical receivers, blind algorithms have been preferred due to their simplicity.

However, the use of training sequences can improve performance significantly and is extensively used in wireless communication systems.

Mikkelsen, Department of Physics, Duke University, USA We demonstrate a colloidally synthesized and tunable plasmonic platform for giant fluorescence enhancement and greatly enhanced spontaneous emission rates of embedded fluorophores.

Full-wave simulations incorporating the nanoscale environment accurately predict the experimentally observed emission dynamics.

Davanco, L. Deshpande, T. Frost, A. Hazari and P. Liu, D. Toliver and T. Woodward, Applied Communication Sciences, USA In this work, the signal-to-noise ratio improvement of photonic lantern-based coherent receivers over single-mode coherent receivers is demonstrated.

The signal-to-noise ratio is improved by a factor of 2. Kikuchi, H. Yagi, N. Inoue, R. Masuyama, T. Katsuyama, K.

Uesaka, Y. Yoneda and H. These characteristics contribute to realizing high-sensitivity coherent receivers over their whole operating wavelength range.

Koch, J. Roth, A. Ramaswamy, D. Sparacin and G. Fish, Aurrion, Inc. USA Datacenters are demanding dramatic increases in the volume and density of optical interconnections, requiring multiple high performance lasers, modulators, and photodiodes in a single module to meet growing bandwidth needs along with dramatically lower power and cost.

Comanici, L. The cable connects a vibration point sensor based on a twin fiber Bragg grating interferometer operating in reflection to its interrogation unit that locks a narrowband DFB laser to the central interference fringe.

Lu, C. Peng and Z. Li, Peking University, China All-depolarized interferometric fiber-optic gyroscope has a special feature that the nonreciprocal port is feasible.

By subtracting two results from the reciprocal port and the nonreciprocal port, optical intensity noise is suppressed. Akimov, TU Dortmund, Germany The talk presents an overview on experimental studies of magnetooptical intensity effects in onedimensional plasmonic crystals, which are formed by patterning the noble metal film gold with a period comparable to the surface plasmon-polariton wavelength.

Kitzler, Macquarie University, Australia, R. Mildren, Macquarie University, Australia The power and beam quality behavior of second-Stokes KGW and diamond external cavity Raman lasers at pump powers up to 40 W has been investigated.

Severe thermally-induced effects are evident in the KGW Raman laser at high power levels whereas for diamond these are negligible.

In addition, mode locking operation was observed and discussed. Zou, P. Hong and Y. Ding, Department of Electrical and Computer Engineering, Lehigh University, USA We report progress made on recovery of blurred images caused by atmospheric turbulence using phaseconjugate beam generated by second-order nonlinear process.

It is perhaps only scheme for efficiently recovering image distorted by dynamic atmospheric turbulence.

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