Ultrafast defect dynamics: A new approach to all optical broadband switching employing amorphous selenium thin films | Zendy

Rituraj Sharma | Zendy; Kiran Prasai | Zendy; D. A. Drabold | Zendy; K. V. Adarsh | Zendy

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Ultrafast defect dynamics: A new approach to all optical broadband switching employing amorphous selenium thin films

Author(s) -

Rituraj Sharma,

Kiran Prasai,

D. A. Drabold,

K. V. Adarsh

Publication year - 2015

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/1.4927543

Subject(s) - ultrashort pulse , optical switch , materials science , optoelectronics , amorphous solid , band gap , broadband , thin film , transient (computer programming) , switching time , absorption (acoustics) , wide bandgap semiconductor , ultrafast laser spectroscopy , coupling (piping) , optics , nanotechnology , physics , laser , chemistry , computer science , organic chemistry , metallurgy , composite material , operating system

Optical switches offer higher switching speeds than electronics, however, in most cases utilizing the interband transitions of the active medium for switching. As a result, the signal suffers heavy losses. In this article, we demonstrate a simple and yet efficient ultrafast broadband all-optical switching on ps timescale in the sub-bandgap region of the a-Se thin film, where the intrinsic absorption is very weak. The optical switching is attributed to short-lived transient defects that form localized states in the bandgap and possess a large electron-phonon coupling. We model these processes through first principles simulation that are in agreement with the experiments

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