Author_Institution :
Kyoto University, Japan
Abstract :
The following topics are dealt with: microscopy and imaging; microwave photonic signal generation; single photon counting systems; passive optical networks; quantum dot sources;plasmonic based photovoltaics; optical interconnections; bioimaging and analysis techniques; microwave photonic integrated circuits; single photon counting detectors ;all-optical signal processing; vertical cavity surface emitting lasers; photonic crystal photovoltaics; photonic biosensors; microwave photonic devices; infrared detectors; DSP for coherent system;hybrid laser sources; nanostructures in solar cells; photon management and gratings; imaging detector arrays;coherent transmission; photonic tools for biology and manipulation; microwave photonic processing and measurements; high speed detectors; constellation optimization and nonlinearities; integrated laser sources and communication lasers; photonic lattices solitons; microwave photonic links and systems; thin film detectors; nonlinearity compensation in coherent transmission; dynamics of semiconductor lasers; quantum photonics; nonlinear and linear optical devices;novel inorganic LEDs; integrated optical sensors; nanocavity and ring resonator lasers; large-area nanophotonics and novel fabrication techniques;optical frequency combs; fiber lasers and applications; organic LEDs and AMOLED displays; interferometric sensors; forward error correction techniques ;high-power and quantum cascade lasers;bionanophotonics; radio-over-fiber techniques; nonlinear optics applications; compressive and spectral imaging; space division multiplexing; new semiconductor laser materials; gain and loss in plasmonics; attosecond and supercontinuum; silicon nanophotonics and other integration platforms; optical wireless; digital holography, microscopy and LADAR; integrated plasmonic devices; compound material growth ;silicon photonics; optical access; nanostructure material processes; high-intensity, short-pulse lasers and their applications; fiber measure- ents and sensors; heterogeneous integration technology and devices; quantum confined light sources; ultrafast nonlinear plasmonics; optical networking;nonlinear and meta-materials; high-power fiber and solid-state lasers; novel fibers and applications;hybrid lasers; infrared nanophotonics; III-V photonic integration; optical transmission;high-order harmonic generation; multicore fibers; phosphor and displays; optical nodes;emerging material technologies; applications of attosecond and short-wavelength sources; fiber biophotonics and devices; and novel hybrid devices.
Keywords :
LED displays; biological techniques; biomedical optical imaging; biosensors; compressed sensing; diffraction gratings; high-speed optical techniques; holography; image sensors; integrated optics; integrated optoelectronics; micro-optics; microwave measurement; microwave photonics; nanophotonics; optical communication equipment; optical fabrication; optical images; optical information processing; optical interconnections; optical links; optical materials; optical microscopy; optical radar; optical resonators; optical sensors; optical solitons; passive optical networks; photodetectors; photon counting; photonic crystals; photovoltaic cells; plasmonics; quantum dots; radio-over-fibre; ring lasers; semiconductor lasers; sensor arrays; solar cells; space division multiplexing; supercontinuum generation; surface emitting lasers; AMOLED display; DSP; LADAR; all-optical signal processing; attosecond sources; attosecond techniques; bioimaging techniques; bionanophotonics; coherent system; coherent transmission; communication lasers; compound material growth; compressive imaging; constellation nonlinearities; constellation optimization; diffraction gratings; digital holography; emerging material technologies; fabrication techniques; fiber biophotonics; fiber lasers; fiber measurements; fiber sensors; forward error correction techniques; heterogeneous integration technology; high speed detectors; high-intensity lasers; high-order harmonic generation; hybrid laser sources; hybrid lasers; imaging detector arrays; infrared detectors; infrared nanophotonics; inorganic LED; integrated laser sources; integrated optical sensors; integrated plasmonic devices; integration platforms; interferometric sensors; large area nanophotonics; laser applications; metamaterials; microwave measurement; microwave photonic devices; microwave photonic integrated circuits; microwave photonic links; microwave photonic processing; microwave photonic signal generation; multicore fibers; nanostructure material processes; nonlinear optical devices; nonlinear optical materials; nonlinear optics applications; nonlinearity compensation; novel hybrid devices; optical access; optical fiber applications; optical frequency combs; optical imaging; optical interconnections; optical microscopy; optical nanocavity; optical networking; optical nodes; optical transmission; optical wireless; organic LED display; passive optical networks; phosphor; photon management; photonic biosensors; photonic crystal photovoltaics; photonic integration; photonic lattices solitons; photonic tools; plasmonic based photovoltaics; quantum cascade lasers; quantum confined light sources; quantum dot sources; quantum photonics; radio-over-fiber techniques; ring resonator lasers; semiconductor laser dynamics; semiconductor laser materials; short wavelength sources; short-pulse lasers; silicon nanophotonics; single photon counting detectors; single photon counting systems; solar cells; solid state lasers; space division multiplexing; spectral imaging; supercontinuum generation; thin film detectors; ultrafast nonlinear plasmonics; vertical cavity surface emitting laser; Conferences; Educational institutions; Engineering profession; HTML; Meetings; Photonics; Semiconductor lasers;
Conference_Titel :
Photonics Conference (IPC), 2012 IEEE
Conference_Location :
Burlingame, CA
Print_ISBN :
978-1-4577-0731-5
DOI :
10.1109/IPCon.2012.6359326
