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Monte Carlo modeling of spin FETs controlled by spin–orbit interaction

✍ Scribed by Min Shen; Semion Saikin; Ming-C. Cheng; Vladimir Privman

Book ID
104042034
Publisher
Elsevier Science
Year
2004
Tongue
English
Weight
249 KB
Volume
65
Category
Article
ISSN
0378-4754

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✦ Synopsis

A method for Monte Carlo simulation of 2D spin-polarized electron transport in III-V semiconductor heterojunction (FETs) is presented. In the simulation, the dynamics of the electrons in coordinate and momentum space is treated semiclassically. The density matrix description of the spin is incorporated in the Monte Carlo method to account for the spin polarization dynamics. The spin-orbit interaction in the spin FET leads to both coherent evolution and dephasing of the electron spin polarization. Spin-independent scattering mechanisms, including optical phonons, acoustic phonons and ionized impurities, are implemented in the simulation. The electric field is determined self-consistently from the charge distribution resulting from the electron motion. Description of the Monte Carlo scheme is given and simulation results are reported for temperatures in the range 77-300 K.

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We consider a particular four state spin system composed of two Ising spins (sxr rX) with independent hopping parameters KI, Kz, coupled by a bilinear Yukawa term, ysxax. The Yukawa term is solely responsible for breaking the global 22 x ZZ symmetry down to Z2. This model is intended as an illustrat