Philips / R. Lopez L. C. / Oxford Instruments / Thomas J. Watson Laboratories / /
Currency
USD / / /
Facility
California Institute of Technology / Kavli Nanoscience Institute / /
IndustryTerm
metal / vanadium dioxide metal-insulator phase transition / broadband devices / potential applications / optics devices / metal-oxide-semiconductor device geometry / vanadium metal target / isolated device / broadband applications / residual polymer etch products / metal phase / modulator devices / active optical devices / insulator-to-metal percolation threshold / insulator-to-metal transition / optical memory devices / telecommunications / thermal energy density / minimization algorithm / telecommunications wavelengths / inline modulator devices / energy density / insulator-to-metal phase transition / metal-insulator transition / free-carrier absorption / particular device / metal-oxide-semiconductor capacitor / reference devices / fiber-optic communications system / typical thin film device / metal-to-insulator transition / energy / /
Movie
D. V / /
Organization
Center for Science and Engineering of Materials / California Institute of Technology / National Science Foundation / Optical Society of America OCIS / Kavli Nanoscience Institute / /
Person
Imogen M. Pryce / Qref / R. F. Haglund / Jr. / Ryan M. Briggs / J. A. McCaulley / V / /
Compact silicon photonic waveguide modulator based on the vanadium dioxide metal-insulator phase transition Ryan M. Briggs,1,* Imogen M. Pryce,1 and Harry A. Atwater1,2 1