Scaling analysis of the magnetic-field-tuned quantum transition in
  superconducting amorphous In-O films

A. A. Shashkin; A. F. Hebard; A. Gold; A. Larkin; A. Yazdani; G. E. Tsydynzhapov; L. Bulaevskii; M. A. Paalanen; M. P. A. Fisher; M. P. A. Fisher; M. V. Golubkov; S. L. Sondhi; S. Okuma; V. F. Gantmakher; V. F. Gantmakher; V. F. Gantmakher; V. F. Gantmakher; V. T. Dolgopolov; Y. Hanein; Y. Liu

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Scaling analysis of the magnetic-field-tuned quantum transition in superconducting amorphous In-O films

Authors: A. A. Shashkin
A. F. Hebard
A. Gold
A. Larkin
A. Yazdani
G. E. Tsydynzhapov
L. Bulaevskii
M. A. Paalanen
M. P. A. Fisher
M. P. A. Fisher
M. V. Golubkov
S. L. Sondhi
S. Okuma
V. F. Gantmakher
V. F. Gantmakher
V. F. Gantmakher
V. F. Gantmakher
V. T. Dolgopolov
Y. Hanein
Y. Liu
Publication date: 4 February 2000
Publisher: 'Pleiades Publishing Ltd'
Doi

Abstract

We have studied the magnetic-field-tuned superconductor-insulator quantum transition (SIT) in amorphous In-O films with different oxygen content and, hence, different electron density. While for states of the film near the zero-field SIT the two-dimensional scaling behaviour is confirmed, for deeper states in the superconducting phase the SIT scenario changes: in addition to the scaling function that describes the conductivity of fluctuation-induced Cooper pairs, there emerges a temperature-dependent contribution to the film resistance. This contribution can originate from the conductivity of normal electrons.Comment: 4 pages, 5 figures; accepted for publication in JETP Lett. 71 (4), 200

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info:doi/10.1134%2F1.568304

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