Prediction of inverse spin Hall devices based on the direct injection of carriers in L-valley of GaAs

Abstract: Numerical simulations are carried out to estimate the inverse spin Hall voltage (V ISHE) as a function of applied electric field, dopant density and excitation energy for n-GaAs based opto-spintronic devices. Adopting a three valley rate equation model, an expression is derived for the density of spin polarized electrons accumulated in different valleys of conduction band. It is noted that an external electric field can be used to enhance the magnitude of V ISHE significantl… Show more

“…Under these circumstances, equation ( 2) should be modified accordingly. We have earlier solved a rate equations model involving three states and have already derived an expression for the band edge spin polarization in presence of inter-valley scattering as mentioned below [20], DCP(P)…”

Contribution of inter-valley scattering in governing the steady state optical spin orientation in Al _x Ga_1−x As

“…Under these circumstances, equation ( 2) should be modified accordingly. We have earlier solved a rate equations model involving three states and have already derived an expression for the band edge spin polarization in presence of inter-valley scattering as mentioned below [20], DCP(P)…”

Contribution of inter-valley scattering in governing the steady state optical spin orientation in Al _x Ga_1−x As

Signature of linear-in- k Dresselhaus splitting in the spin relaxation of X -valley electrons in indirect band gap AlGaAs