Overview
ABSTRACT
The present document addresses the interactions between a lightwave and a semiconductor material aiming at the realization of new optically controlled microwave functions. This new research axis, driving a new family of microwave devices, deals mainly with the photoconductivity in semiconductors with three-bi-and one-dimensional structures for applications covering from the generation of microwave signals to the sampling of those signals.
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Charlotte TRIPON-CANSELIET: Senior Lecturer, Pierre-et-Marie-Curie University, Paris
INTRODUCTION
One of the challenges facing future electronic systems, and in particular microwave systems, is their ability to adapt to extremely dense and evolving spectral environments. This adaptability translates either into the ability to process signals with increasingly wide bandwidths, or into the ability to reconfigure very rapidly to adapt its operating frequency band to the spectral environment. These ultra-rapid reconfiguration capabilities involve the notion of microwave routing or switching. The most promising approach to controlling these devices with a high degree of temporal precision is to use an optical pulse, which has the dual advantage of electromagnetic immunity and temporal jitter on the order of femtoseconds. It is therefore necessary to master the interactions between a light wave and a material. Due to the fundamentally different nature of existing materials (insulator, conductor, semiconductor), interactions of different kinds can occur with these materials when they are subjected to a flow of photons in a wavelength range from X-rays to the far infrared. These interactions can be transcribed through various modifications to the propagation of the incident electromagnetic wave, which will be reflected, absorbed or refracted by this material.
The aim of this article is to describe the interactions of a light wave with semiconductor materials, and then to identify new optically controllable microwave functions. The first paragraph is devoted to the main light/matter interactions, followed by a paragraph on light emission and absorption mechanisms in semiconductor materials. The third paragraph deals with the photoconductivity of semiconductor materials. Finally, the following paragraphs cover the field of new optically controlled microwave functions, in particular photomixing and microwave signal sampling.
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KEYWORDS
light-matter interaction | photoconductivity
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Bibliography
Websites
Société Française d'Optique, Optics and Microwaves Club http://www.sfoptique.org/SFO/club-omw/
Events
IEEE International Topical Meeting on Microwave Photonics http://www.ieee/conferences_events
International Asia-Pacific Microwave Photonics Conference (APMP)
IEEE European Microwave Conference (EuMC) http://www.eumweek.com...
Patents
Some patents on microwave photocommutators
ALQUIÉ (.G), CHAZELAS (J.), COUTAZ (J.-L.), DECOSTER (D.), FORMONT (S.), MAGNIN (V.), ROUX (J.-F.), TRIPON-CANSELIET (Ch.). – Device for confining the optical control wave in the active zone of an optically controlled electronic device, FR2908569 (A1), May 16, 2008.
FORMONT (S.), CHAZELAS (J.), ALGANI (C.), ALQUIE (G.), CANSELIET (Ch.),...
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