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КОНДЕНСИРОВАННЫЕ СРЕДЫ
Superconducting triplet spin valve
Ya. V. Fominova,
A. A. Golubovb,
T. Yu. Karminskayac,
M. Yu. Kupriyanovc,
R. G. Deminovd,
L. R. Tagirovd a L. D. Landau Institute for Theoretical Physics, Russian Academy of Sciences
b Faculty of Science and Technology and MESA+ Institute of Nanotechnology, University of Twente
c Nuclear Physics Institute, Moscow State University
d Physics Faculty, Kazan State University
Аннотация:
We study the critical temperature
$T_c$ of SFF trilayers (S is a singlet superconductor, F is a ferromagnetic metal), where the long-range triplet superconducting component is generated at noncollinear magnetizations of the F layers. We demonstrate that
$T_c$ can be a nonmonotonic function of the angle
$\alpha$ between the magnetizations of the two F layers. The minimum is achieved at an intermediate
$\alpha$, lying between the parallel (P,
$\alpha=0$) and antiparallel (AP,
$\alpha=\pi$) cases. This implies a possibility of a “triplet” spin-valve effect: at temperatures above the minimum
$T_c^\mathrm{Tr}$ but below
$T_c^\mathrm P$ and
$T_c^\mathrm{AP}$, the system is superconducting only in the vicinity of the collinear orientations. At certain parameters, we predict a reentrant
$T_c(\alpha)$ behavior. At the same time, considering only the P and AP orientations, we find that both the “standard” (
$T_c^\mathrm P<T_c^\mathrm{AP}$) and “inverse” (
$T_c^\mathrm P>T_c^\mathrm{AP}$) switching effects are possible depending on parameters of the system.
Поступила в редакцию: 10.02.2010
Язык публикации: английский