Mode-locking in driven vortex lattices with transverse ac-drive and
  random pinning

A. A. Middleton; A. B. Kolton; A. B. Kolton; A. B. Kolton; A. B. Kolton; A. E. Koshelev; A. I. Larkin; A. M. Troyanovski; A. Schmid; A. T. Fiory; A. T. Fiory; A. T. Fiory; A.-C. Shi; Alejandro B. Kolton; C. J. Olson; C. J. Olson; C. Reichhardt; C. Reichhardt; C. Reichhardt; D. Domínguez; D. Domínguez; D. Domínguez; D. Domínguez; Daniel Domínguez; F. Pardo; G. Grüner; H. Fangohr; H. Fangohr; H. J. Jensen; J. M. Harris; J. Müllers; K. E. Bassler; K. H. Lee; K. Moon; L. Balents; L. Balents; L. Sneddon; L. Van Look; M. J. Higgins; N. Grønbech-Jensen; N. Grønbech-Jensen; N. Grønbech-Jensen; Niels Grønbech-Jensen; P. Le Doussal; P. Martinoli; S. Bhattacharya; S. N. Coppersmith; S. P. Benz; S. Ryu; S. Scheidl; S. Shapiro; T. Giamarchi; Y. Togawa

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Mode-locking in driven vortex lattices with transverse ac-drive and random pinning

Abstract

We find mode-locking steps in simulated current-voltage characteristics of driven vortex lattices with {\it random} pinning when an applied ac-current is {\it perpendicular} to the dc-current. For low frequencies there is mode-locking only above a non-zero threshold ac force amplitude, while for large frequencies there is mode-locking for any small ac force. This is consistent with the nature of {\it transverse} temporal order in the different regimes in the absence of an applied ac-drive. For large frequencies the magnitude of the fundamental mode-locked step depends linearly with the ac force amplitude.Comment: 4 pages, 4 figures, .tar.gz fil

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info:doi/10.1103%2Fphysrevb.65...

Last time updated on 02/01/2020