Spin Injection into a Luttinger Liquid
Abstract
We study the effect of spin injection into a Luttinger liquid. The spin-injection-detection setup of Johnson and Silsbee is considered; here spins injected into the Luttinger liquid induce, across an interface with a ferromagnetic metal, either a spin-dependent current (Is) or a spin-dependent boundary voltage (Vs). We find that the spin-charge separation nature of the Luttinger liquid affects Is and Vs in a very different fashion. In particular, in the Ohmic regime, Vs depends on the spin transport properties of the Luttinger liquid in essentially the same way as it would in the case of a Fermi liquid. The implications of our results for the spin-injection-detection experiments in the high Tc cuprates are discussed.
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