Spin polarization control by electric field gradients
Abstract
We show that the propagation of spin polarized carriers may be dramatically affected by inhomogeneous electric fields. Surprisingly, the spin diffusion length is found to strongly depend on the sign and magnitude of electric field gradients, in addition to the previously reported dependence on the sign and magnitude of the electric field [Yu & Flatt\'e, Phys. Rev. B 66, 201202(R) 2002; ibid. 66, 235302 (2002)]. This indicates that purely electrical effects may play a crucial role in spin polarized injection, transport and detection in semiconductor spintronics. A generalized drift-diffusion equation that describes our findings is derived and verified by numerical calculations using the Boltzmann transport equation.
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