Title :
Anisotropic carrier and exciton confinement in T-shaped quantum wires revealed by magneto-photoluminescence
Author :
Langbein, W. ; Gislason, H. ; Hvam, J.M. ; Zeman, J.
Author_Institution :
Mikroelekronik Centret, Tech. Univ., Lyngby, Denmark
Abstract :
Summary form only given.The realization of one-dimensional (1D) semiconductor nanostructures with large confinement energies is of importance for device applications. Different techniques such as growth on tilted substrates (Serpentine superlattices) or prepatterned substrates (V-groove quantum wires) and the cleaved-edge overgrowth of T-shaped structures have been demonstrated. For the T-shaped structures, the confinement energy has been recently increased to above 2k/sub B/T at room temperature by optimizing structure parameters. A decreased exciton diameter in the [110] direction in the wire compared with the [110] well was revealed by magneto-photoluminescence. We determine here the extension of the T-shaped quantum wire (T-QWR) state in both confining directions [110] and [001] to verify its 1D character, as shown for crescent-shaped wires.
Keywords :
excitons; magneto-optical effects; photoluminescence; semiconductor quantum wires; T-shaped quantum wire; anisotropic confinement; carrier confinement; exciton confinement; magneto-photoluminescence; one-dimensional semiconductor nanostructure; Anisotropic magnetoresistance; Carrier confinement; Excitons; Magnetic confinement; Potential well; Semiconductor nanostructures; Semiconductor superlattices; Substrates; Temperature; Wire;
Conference_Titel :
Quantum Electronics Conference, 1998. IQEC 98. Technical Digest. Summaries of papers presented at the International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
1-55752-541-2
DOI :
10.1109/IQEC.1998.680177
