Tuesday, September 25, 2012

1209.5341 (Liudmila A. Pozhar)

Small quantum dots of diluted magnetic III-V semiconductor compound    [PDF]

Liudmila A. Pozhar
In this chapter quantum many body theoretical methods have been used to study properties of GaAs - and InAs - based, small semiconductor compound quantum dots (QDs) containing manganese or vanadium atoms. Interest to such systems has grown since experimental synthesis of nanoscale magnetic semiconductors, that is, nanoscale semiconductor compounds with enhanced magnetic properties. This enhancement is achieved by several methods, and in particular by doping common semiconductor compounds with some atoms, such as Mn or V. Experimental studies indicate that the electron spin density in the case of thin nanoscale magnetic semiconductor films and QDs may be delocalized. As described in this chapter, quantum many body theory-based, computational synthesis (i.e., virtual synthesis) of tetrahedral symmetry GaAs and InAs small pyramidal QDs doped with sabstitutional Mn or V atoms proves that such QDs are small magnetic molecules that indeed, possess delocalized and polarized electron spin density. Such delocalization provides a physical mechanism responsible for stabilization of these nanoscale molecular magnets, and leads to the development of what can be described as spin-polarized holes of the electron charge deficit. In some QDs, numerical values of the electron spin density distribution are relatively large, indicating that such semiconductor systems may be used as nanomaterials for spintronic and magneto-optical sensor applications.
View original: http://arxiv.org/abs/1209.5341

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