Exciton Transport Phenomena in GaAs Coupled Quantum Wells

Jason Leonard

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English

Springer International Publishing AG
04 June 2019

Low temperature physics; Light (optics); Atomic & molecular physics; Quantum physics (quantum mechanics & quantum field theory); Semi-conductors & super-conductors

Series: Springer Theses

This thesis presents results crucial to the emerging field of indirect excitons. These specially designed quasiparticles give the unique opportunity to study fundamental properties of quantum degenerate Bose gases in semiconductors. Furthermore, indirect excitons allow for the creation of novel optoelectronic devices where excitons are used in place of electrons. Excitonic devices are explored for the development of advanced signal processing seamlessly coupled with optical communication. The thesis presents and describes the author's imaging experiments that led to the discovery of spin transport of excitons. The many firsts presented herein include the first studies of an excitonic conveyer, leading to the discovery of the dynamical localization-delocalization transition for excitons, and the first excitonic ramp and excitonic diode with no energy-dissipating voltage gradient.

By: Jason Leonard
Imprint: Springer International Publishing AG
Country of Publication: Switzerland
Edition: Softcover reprint of the original 1st ed. 2018
Dimensions: Height: 235mm, Width: 155mm,
Weight: 454g
ISBN: 9783319888347
ISBN 10: 331988834X
Series: Springer Theses
Pages: 59
Publication Date: 04 June 2019
Audience: Professional and scholarly , Undergraduate
Format: Paperback
Publisher's Status: Active

Jason Leonard received his Ph.D. from the the University of California, San Diego, in 2016.