Phase Dependent Thermopower in Andreev Interferometers

A. Dimoulas; A. F. Andreev; A. F. Andreev; Chen-Jung Chien; F. J. Blatt; G. Neuttiens; H. Courtois; H. Pothier; J. Eom; Jonghwa Eom; K. E. Nagaev; L. Y. Gorelik; M. Henny; N. Ashcroft; N. R. Claughton; P. Charlat; P. G. N. de Vegvar; R. S. Crisp; S. G. den Hartog; V. T. Petrashov; Venkat Chandrasekhar; Y. M. Galperin; Y. M. Galperin

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Phase Dependent Thermopower in Andreev Interferometers

Authors: A. Dimoulas
A. F. Andreev
A. F. Andreev
Chen-Jung Chien
F. J. Blatt
G. Neuttiens
H. Courtois
H. Pothier
J. Eom
Jonghwa Eom
K. E. Nagaev
L. Y. Gorelik
M. Henny
N. Ashcroft
N. R. Claughton
P. Charlat
P. G. N. de Vegvar
R. S. Crisp
S. G. den Hartog
V. T. Petrashov
Venkat Chandrasekhar
Y. M. Galperin
Y. M. Galperin
Publication date: 24 May 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report measurements of the thermopower S of mesoscopic Andreev interferometers, which are hybrid loops with one arm fabricated from a superconductor (Al), and one arm from a normal metal (Au). S depends on the phase of electrons in the interferometer, oscillating as a function of magnetic flux with a period of one flux quantum (= h/2e). The magnitude of S increases as the temperature T is lowered, reaching a maximum around T = 0.14 K, and decreases at lower temperatures. The symmetry of S oscillations with respect to magnetic flux depends on the topology of the sample.Comment: 4 pages, 4 figure

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