Title :
Tuning Optical Absorption in an Ultrathin Lossy Film by Use of a Metallic Metamaterial Mirror
Author :
Junghyun Park ; Ju-Hyung Kang ; Soo Jin Kim ; Hasman, Erez ; Brongersma, Mark L.
Author_Institution :
Geballe Lab. of Adv. Mater., Stanford Univ., Stanford, CA, USA
Abstract :
We present a way to tune the spectral light absorption properties of an ultrathin planar superabsorbing semiconductor film placed on a metallic metamaterial mirror. It is shown that we can change the wavelength of maximum absorption in a lossy film with a fixed thickness by tailoring the filling ratio of the metallic metamaterial. This remarkable ability of tuning originates from the control of the reflection phase pickup of light impinging from the lossy film upon the metallic metamaterial mirror. Full-field electromagnetic simulations show good agreement with the theoretical predictions. The proposed approach allows for a convenient and highly controllable way to achieve spatially variant tuning of absorption in a semiconductor film.
Keywords :
light reflection; mirrors; optical films; optical losses; optical metamaterials; optical tuning; semiconductor thin films; filling ratio; full-field electromagnetic simulations; metallic metamaterial mirror; optical absorption tuning; planar superabsorbing semiconductor film; reflection phase pickup; spectral light absorption properties; ultrathin lossy film; Absorption; Filling; Metamaterials; Mirrors; Optical films; Reflection; Electromagnetic wave absorption; Metallic metamaterial; Optical reflection; Optical tuning; metallic metamaterial; optical reflection; optical tuning;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2432756
