Abstract :
The following topics were dealt with: biophotonics; highly sensitive photonic biosensors; two-photon stereolithography; silicon microphotonic waveguides; nanobiophotonics; optical fluorescence imaging; breast cancer; optical coherence tomography; infrared spectrum visualizing human acupoints; on-spot evaluation of maturity stage of fruits; laser-induced photoluminescence; retinal pigment epithelium cells; false image correction; harmonic generation microscopy; gold nanoshell-based photoacoustic imaging; Monte carlo simulations; optical properties; surface plasmon resonance phase imaging; mammogram; support vector machine; genetic algorithm; DNA sequencing; bioluminescence detecting system; image processing; optic nerve stimulation; ANFIS-based segmentation; noninvasive monitoring adult hemodynamic and oxygenation variables; BP neural network; optical pumping noble gas MRI phantom; implantable MOMES; visual prosthesis; two-photon excitation autofluorescence spectroscopy; silicon photonics; wavelength tunable light emitting nanostructure; high density optical integration; microwave engineering; Moores law; ultrasmall arrayed-waveguide grating interleaver; Q-modulated semiconductor laser; FDTD simulation; two-dimensional photonic crystal microcavity; optical nonlinearity enhancement; novel bi-directional photothermal microactuator; channel drop filters; optical femtosecond switching; metamaterials; left-handed transmission-line circuits; spatial filtering; planar air waveguide; and negative refractive index photonic crystal fiber.
Keywords :
DNA; Q-switching; arrayed waveguide gratings; bioMEMS; biochemistry; bioluminescence; biomedical MRI; biomedical optical imaging; biosensors; cancer; cellular biophysics; eye; finite difference time-domain analysis; fluorescence; genetic algorithms; haemodynamics; high-speed optical techniques; laser applications in medicine; learning (artificial intelligence); mammography; medical image processing; metamaterials; microactuators; microwave photonics; molecular biophysics; nanobiotechnology; neurophysiology; optical fibres; optical filters; optical harmonic generation; optical materials; optical modulation; optical planar waveguides; optical switches; optical tomography; phantoms; photoacoustic effect; photoluminescence; photonic crystals; prosthetics; semiconductor lasers; spatial filters; support vector machines; surface plasmon resonance; tumours; BP neural network; DNA sequencing; FDTD simulation; MRI phantom; Q-modulated semiconductor laser; arrayed-waveguide grating interleaver; autofluorescence spectroscopy; bioluminescence; breast cancer; channel drop filter; genetic algorithm; harmonic generation microscopy; hemodynamics; human acupoint; image processing; implantable MOMES; laser-induced photoluminescence; mammogram; metamaterial; nanobiophotonics; nonlinear negative-index material; optic nerve stimulation; optical coherence tomography; optical femtosecond switching; optical fluorescence imaging; optical nonlinearity; photonic biosensor; photonic crystal fiber; photonic crystal microcavity; photothermal microactuator; planar air waveguide; retinal pigment epithelium cells; silicon microphotonic waveguide; silicon photonics; spatial filtering; support vector machine; surface plasmon resonance phase imaging; two-photon stereolithography; visual prosthesis;
Conference_Titel :
Biophotonics, Nanophotonics and Metamaterials, 2006. Metamaterials 2006. International Symposium on
Conference_Location :
Hangzhou
Print_ISBN :
0-7803-9773-8
DOI :
10.1109/METAMAT.2006.334973
