fixed photon energy / gap energy / nonzero quasiparticle energy / heated quasiparticle energy distribution / larger energy width / energy interval / inherent imaging capability / photon energy / energy gap / mesoscopic systems / energy range / fabricated devices / energy intervals / mesoscopic and superconducting systems / metal deposition / energy-dependent quantity / energy dependent / energy emission / measured energy resolution / final energy / energy exchange / electronics / given energy / energy dependence / energy bins / nonequilibrium energy distribution / lower energy / energy bin / quasiparticle energy distribution / energy resolution / quasiparticle energy / imaging / time-dependent energy distribution / heated energy distribution / inherent imaging capabilities / energy distribution / average quasiparticle energy / lower energy gap / electron energy distribution / energy / larger energy photons / /
OperatingSystem
Fermi / /
Organization
L. Li / L. Frunzio / S. Friedrich / M. C. Gaidis / and D. E. Prober Department of Applied Physics / U.S. Securities and Exchange Commission / Yale University / /
Position
model developed / model for the tunneling current / /