Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2008-11-07
J. Phys.: Condens. Matter, vol. 22, p. 216002 (2010)
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
Title, abstract and the body of the paper was modified although the basic conclusions remain unchanged. The modified version c
Scientific paper
10.1088/0953-8984/22/21/216002
It is well-known that the Curie temperature, and hence the magnetization, in diluted magnetic semiconductor (DMS) like Ga$_{1-x}$Mn$_x$As can be controlled by changing the equilibrium density of holes in the material. Here, we propose that even with a constant hole density, large changes in the magnetization can be obtained with a relatively small imbalance in the quasi-Fermi levels for up-spin and down-spin electrons. We show, by coupling mean field theory of diluted magnetic semiconductor ferromagnetism with master equations governing the Mn spin-dynamics, that a mere splitting of the up-spin and down-spin quasi-Fermi levels by 0.1 meV will produce the effect of an external magnetic field as large as 1 T as long as the alternative relaxation paths for Mn spins (i.e. spin-lattice relaxation) can be neglected. The physics is similar to the classic Overhauser effect, also called the dynamic nuclear polarization, with the Mn impurities playing the role of the nucleus. We propose that a lateral spin-valve structure in anti-parallel configuration with a DMS as the channel can be used to demonstrate this effect as quasi-Fermi level splitting of such magnitude, inside the channel of similar systems, have already been experimentally demonstrated to produce polarization of paramagnetic impurity spins.
Datta Saiti
Siddiqui Lutfe
Zainuddin A. N. M.
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