Session X10: Focus Session: Spin Transport/Novel Magnetic Semiconductors
8:00 AM–10:12 AM, Friday, March 25, 2005
LACC Room: 153B
Sponsoring Units:
DMP GMAG
Chair: Paul Crowell, University of Minnesota
Abstract ID: BAPS.2005.MAR.X10.7
Abstract: X10.00007 : Correlated Impurities in Diluted Magnetic Semiconductors: a disordered Heisenberg Model Monte Carlo study
9:12 AM–9:24 AM
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Abstract 
Authors:
D.J. Priour
S. Das Sarma
(University of Maryland)
We consider two types of correlated doping in ${\textrm Ga}_{1-x}{\textrm Mn}_{x}{\textrm As}$, patterned doping (in which Mn impurities are deposited as a cubic superlattice) and impurity clustering (in which dopants adhere, forming clusters); calculations are via classical Monte Carlo with impurity moments modeled as Heisenberg spins interacting through the damped RKKY range function with the damping scale given by the carrier mean free path. We calculate Curie Temperatures $T_{c}$, magnetization, and magnetic susceptibility. In both the patterned and clustered doping schemes, the deviation from the superlattice structure or the degree of impurity cluster formation is continuously tunable. In agreement with lattice Mean Field Theory (MFT), Curie Temperatures increase with increasing deviation from a perfect impurity superlattice. However, in the clustering scheme, $T_{c}$ is initially robust as clustering increases, ultimately decreasing slowly as impurities become strongly clumped; lattice MFT predicts instead that $T_{c}$ rises as clustering becomes more prevalent. When impurity clumping is very extensive, clusters of spins act as isolated moments; calculations reveal that the resulting paramagnetic state has a magnetic susceptibility which is distinct from that of the (ferromagnetic) states in which Mn dopants are more weakly clustered.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2005.MAR.X10.7