fDate :
Aug. 28 2011-Sept. 1 2011
Abstract :
The following topics are dealt with: nanophotonics; semiconductor lasers; mode-locked fibre lasers; photonic devices and modelling; biophotonics; nonclassical states of light; gratings and sensing; applied nonlinear optics; silicon photonics; metamaterials;imaging and 3D displays; ultrafast laser modification of optical materials; nanoparticles and applications; high power laser technology; optical signal processing; frequency dissemination and frequency control; cavity quantum electrodynamics; frequency conversion of solid state lasers; semiconductor modulators and beam optics;plasmonics; quantum information;spectroscopy and chemical applications;terahertz sources;passive optical networks; optical information processing and computing;femtosecond laser microfabrication;long-wavelength fibre lasers;advanced interferometry and spectroscopy; spatial control of solid state lasers;advanced networking and signal monitoring;laser surface nanostructuring;mesoscopic quantum optics;novel fibres and fibre characterisation;solid-state laser engineering;novel photonic devices;biomedical applications;phase stabilization and pulse characterisation;quantum science in atoms, molecules and solids;fibre sensors;guiding terahertz wave; microscopic imaging and tomography;in-building and green networks;high power laser installation; optical sources and amplifiers;optical storage;broadband fibre Sources; optical nanoscopy;holography;light emitting diodes (LEDs); short-pulse characterisation;single photon sources and interference;application of correlated photons; novel systems-photons, ions, molecules and atoms; IR astrophotonics; waveguide lasers; photonic crystals and nanocrystals; optical trapping and tweezers; dimensionality and nonequilibrium phenomena; precision measurements and fundamental tests; nanophotonic fabrication; frequency and temporal control of solid state lasers ;semiconductors thin films; green photonics; ultrafast optics of the solid state; and CPT + equivalence prin- iple tests.
Keywords :
CPT invariance; astronomical instruments; astronomical techniques; bio-optics; diffraction gratings; fibre lasers; fibre optic sensors; frequency control; high-speed optical techniques; holography; information theory; infrared astronomy; laser applications in medicine; laser materials processing; laser mode locking; laser stability; light emitting diodes; light interference; metamaterials; microfabrication; nanophotonics; nonlinear optics; optical fibre networks; optical frequency conversion; optical images; optical information processing; optical microscopy; optical sensors; optical storage; optical tomography; passive optical networks; photonic crystals; plasmonics; quantum electrodynamics; quantum optics; quantum theory; radiation pressure; semiconductor lasers; solid lasers; spectroscopy; three-dimensional displays; waveguide lasers; 3D displays; CPT; IR astrophotonics; LED; advanced interferometry; advanced networking; applied nonlinear optics; beam optics; biomedical application; biophotonics; broadband fibre Sources; cavity quantum electrodynamics; chemical applications; correlated photon; dimensionality phenomena; equivalence principle tests; femtosecond laser microfabrication; fibre characterisation; fibre sensors; frequency control; frequency conversion; frequency dissemination; fundamental tests; green networks; green photonics; guiding terahertz wave; high power laser installation; holography; laser surface nanostructuring; light emitting diodes; long wavelength fibre laser; mesoscopic quantum optics; metamaterials; microscopic imaging; mode locked fibre lasers; nanocrystals; nanoparticles; nanophotonic fabrication; nanophotonics; nonclassical states of light; nonequilibrium phenomena; optical amplifier; optical gratings; optical imaging; optical information processing; optical interference; optical nanoscopy; optical sensing; optical signal processing; optical sources; optical spectroscopy; optical storage; optical tomography; optical trapping; optical tweezers; passive optical networks; phase stabilization; photonic crystals; photonic devices; plasmonics; precision measurements; quantum information; quantum science; semiconductor laser; semiconductor modulators; semiconductors thin films; short pulse characterisation; signal monitoring; silicon photonics; single photon source; solid state laser spatial control; solid state lasers; temporal control; terahertz source; ultrafast laser optical material modification; ultrafast optics; waveguide lasers;
Conference_Titel :
Quantum Electronics Conference & Lasers and Electro-Optics (CLEO/IQEC/PACIFIC RIM), 2011
Conference_Location :
Sydney, NSW
Print_ISBN :
978-1-4577-1939-4
DOI :
10.1109/IQEC-CLEO.2011.6194191
