Quantum-Spillover-Enhanced Surface-Plasmonic Absorption at the Interface of Silver and High-Index Dielectrics

Authors :: Massachusetts Institute of Technology. Department of Mechanical Engineering
Jin, Dafei
Hu, Qing
Yang, Yingyi
Fang, Nicholas Xuanlai
Neuhauser, Daniel
von Cube, Felix
Sachan, Ritesh
Luk, Ting S.
Bell, David C.
Massachusetts Institute of Technology. Department of Mechanical Engineering
Jin, Dafei
Hu, Qing
Yang, Yingyi
Fang, Nicholas Xuanlai
Neuhauser, Daniel
von Cube, Felix
Sachan, Ritesh
Luk, Ting S.
Bell, David C.
Source :: American Physical Society
Publication Year :: 2015
Abstract: We demonstrate an unexpectedly strong surface-plasmonic absorption at the interface of silver and high-index dielectrics based on electron and photon spectroscopy. The measured bandwidth and intensity of absorption deviate significantly from the classical theory. Our density-functional calculation well predicts the occurrence of this phenomenon. It reveals that due to the low metal-to-dielectric work function at such interfaces, conduction electrons can display a drastic quantum spillover, causing the interfacial electron-hole pair production to dominate the decay of surface plasmons. This finding can be of fundamental importance in understanding and designing quantum nanoplasmonic devices that utilize noble metals and high-index dielectrics.<br />National Science Foundation (U.S.) (Award CMMI-1120724)<br />United States. Air Force Office of Scientific Research. Multidisciplinary University Research Initiative (Grant FA9550-12-1-0488)

Tools