Petra Schneider scite author profile

The relative strengths of Rashba and Dresselhaus terms describing the spin-orbit coupling in semiconductor quantum well (QW) structures are extracted from photocurrent measurements on n-type InAs QWs containing a two-dimensional electron gas (2DEG). This novel technique makes use of the angular distribution of the spin-galvanic effect at certain directions of spin orientation in the plane of a QW. The ratio of the relevant Rashba and Dresselhaus coefficients can be deduced directly from experiment and does not relay on theoretically obtained quantities. Thus our experiments open a new way to determine the different contributions to spin-orbit coupling.

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Resonant inversion of the circular photogalvanic effect inn-doped quantum wells

Ganichev

et al. 2003

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We show that the sign of the circular photogalvanic effect can be changed by tuning the radiation frequency of circularly polarized light. Here resonant inversion of the photogalvanic effect has been observed for direct inter-subband transition in n-type GaAs quantum well structures. This inversion of the photon helicity driven current is a direct consequence of the lifting of the spin degeneracy due to k-linear terms in the Hamiltonian in combination with energy and momentum conservation and optical selection rules.

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Magneto-gyrotropic photogalvanic effects in semiconductor quantum wells

Belkov

Ganichev

Ivchenko

et al. 2005

J. Phys.: Condens. Matter

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We show that free-carrier (Drude) absorption of both polarized and unpolarized terahertz radiation in quantum well (QW) structures causes an electric photocurrent in the presence of an in-plane magnetic field. Experimental and theoretical analysis evidences that the observed photocurrents are spin dependent and related to the gyrotropy of the QWs. Microscopic models for the photogalvanic effects in QWs based on asymmetry of photoexcitation and relaxation processes are proposed. In most of the investigated structures the observed magneto-induced photocurrents are caused by spin-dependent relaxation of non-equilibrium carriers.

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Electric current-induced spin orientation in quantum well structures

Ganichev

Danilov

Schneider

et al. 2006

Journal of Magnetism and Magnetic Materials

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Spin-galvanic effect due to optical spin orientation inn-type GaAs quantum well structures

et al. 2003

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Under oblique incidence of circularly polarized infrared radiation the spin-galvanic effect has been unambiguously observed in (001)-grown n-type GaAs quantum well (QW) structures in the absence of any external magnetic field. Resonant inter-subband transitions have been obtained making use of the tunability of the free-electron laser FELIX. It is shown that a helicity dependent photocurrent along one of the 110 axes is predominantly contributed by the spin-galvanic effect while that along the perpendicular in-plane axis is mainly due to the circular photogalvanic effect. This strong non-equivalence of the [110] and [110] directions is determined by the interplay between bulk and structural inversion asymmetries. A microscopic theory of the spin-galvanic effect for direct inter-subband optical transitions has been developed being in good agreement with experimental findings.

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Petra Schneider

Experimental Separation of Rashba and Dresselhaus Spin Splittings in Semiconductor Quantum Wells

Resonant inversion of the circular photogalvanic effect inn-doped quantum wells

Magneto-gyrotropic photogalvanic effects in semiconductor quantum wells

Electric current-induced spin orientation in quantum well structures

Spin-galvanic effect due to optical spin orientation inn-type GaAs quantum well structures

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