Tuesday, January 15, 2013

1301.2640 (F. K. Dejene et al.)

Spin heat accumulation and spin-dependent temperatures in nanopillar
spin valves
   [PDF]

F. K. Dejene, J. Flipse, G. E. W. Bauer, B. J. van Wees
Since the discovery of the giant magnetoresistance (GMR) effect the use of the intrinsic angular momentum of the electrons has opened up new spin based device concepts. The two channel model of spin-up and spin-down electrons with spin-dependent conductivities very well describes spin and charge transport in such devices. In studies of the interaction between heat and spin transport, or spin caloritronics, until recently it was assumed that both spin species are always at the same temperature. Here we report the observation of different temperatures for the spin up (T_\uparrow) and spin down (T_\downarrow) electrons in a nanopillar spin valve subject to a heat current. The weak relaxation, especially at room temperature, of the spin heat accumulation (T_s = T_\uparrow-T_\downarrow) is essential for its detection in our devices. Using 3D finite element modeling spin heat accumulation (SHA) values of 120 mK and 350 mK are extracted at room temperature and 77 K, respectively, which is of the order of 10% of the total temperature bias over the pillar. This technique uniquely allows the study of inelastic spin scattering at low energies and elevated temperatures, which is not possible by spectroscopic methods.
View original: http://arxiv.org/abs/1301.2640

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