Mobile 3-D, Spin Hall Effect & EMCCD - LIGHT MATTERS 03.27.2013
-Mobile 3-D
-Spin Hall Effect
-EMCCD
On this week’s show, glasses-free 3-D goes mobile, the strongest signal yet of the photonic spin Hall effect is obtained by a metamaterial, new theory suggests an unconventional use for EMCCD, tests reveal the hazards of laser pointers, tailored photons are generated from solid-state chips, and photoacoustic microscopy receives a grant from the National Science Foundation.
Light Matters is the Photonics Industry’s weekly news program and is hosted by Photonics Media editors, Melinda Rose & Laura Marshall.
2D2133a3D3rBerkeley LabCambridge UniversityCCDCellcellular metabolismCLASScode of federal regulationsconsumptionDallasDavid FattaldecoherencediffractiveEMCCDFDAglasses-freegoldgreenHewlett-PackardHPLaura MarshallLight MattersLihong WangMelinda RosemetabolismmetamaterialmicroscopicMobilenanoantennasNational Institute of Standards and TechnologyNational Science FoundationNatureNature MethodsNISTOpticsoxygenparallax viewPhotoacoustic MicroscopyPhotonics Mediaphotonspixelpixilationpointerpolarized lightquantum bitsquantum dotsquantum Internetqubitsredresonance fluorescenceschottky diode devicesemiconductorsspin hallUniversity of TexasWashington University