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Article
Magnetic Micro-Trapping of Excitons in Multiple Quantum Wells System Using Local Field Minima
ECU Publications 2011
  • Ahmed Abdelrahman, Edith Cowan University
  • Hansoon Kang, Gwanji Institute of Science and Technology
  • Mikhail Vasiliev, Edith Cowan University
  • Kamal Alameh, Edith Cowan University
Publication Date
1-1-2011
Document Type
Conference Proceeding
Publisher
SPIE
Editor(s)
SPIE Photonics West
Faculty
Faculty of Computing, Health and Science
School
Electron Science Research Institute (ESRI)
RAS ID
10239
Comments
This article was originally published as: Abdelrahman, A. , Kang, H., Vasiliev, M. , & Alameh, K. (2011). Magnetic Micro-Trapping of Excitons in Multiple Quantum Wells System Using Local Field Minima. Paper presented at the Ultrafast Phenomena in Semiconductors and Nanostructure Materials . USA. Original article available here
Abstract
We propose a simple method to create a local magnetic field minima for the magnetic trapping and confining of excitons. We observe an enhanced spatially resolved photoluminescence of the optically active heavy-hole excitons concentrated at the confining region in a multiple quantum wells system. We draw the attention to consider the proposed trapping mechanism as an approach to reach the Bose-Einstein condensate limit of excitons.
Citation Information
Ahmed Abdelrahman, Hansoon Kang, Mikhail Vasiliev and Kamal Alameh. "Magnetic Micro-Trapping of Excitons in Multiple Quantum Wells System Using Local Field Minima" (2011)
Available at: http://works.bepress.com/mikhail_vasiliev/28/