The Fabrication and Properties of Silicon-nanocrystal-based Devices and Structures Produced by Ion Implantation - The Search for Gain
Date
2003
Authors
Elliman, Robert
Lederer, Maximilian
Smith, Nathanael
Luther-Davies, Barry
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier
Abstract
Experiments were undertaken to verify a recent claim of optical gain produced by photo-excited silicon nanocrystals. This was achieved by propagating an optical probe beam (wavelength of 800 nm) through a slab waveguide containing silicon nanocrystals and measuring this signal as the nanocrystals were optically excited by a high energy density (3.5-3500 μJ/cm2) pump beam (wavelength 355 nm). The probe signal was observed to decrease when the guide was subjected to optical pumping - no gain was observed. Indeed, the results are shown to be consistent with an excited state absorption process, in which photo-generated carriers induce 'free' carrier absorption.
Description
Keywords
Keywords: Absorption; Ion implantation; Nanostructured materials; Optical pumping; Optical waveguides; Silicon; Optical gain; Ion beams Ion implantation; Nanocrystal; Optical gain; Silicon; Waveguide
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Source
Nuclear Instruments and Methods in Physics Research: Section B
Type
Journal article