We report high-resolution measurements of voltage (V) noise in the mixed
state of micrometre-sized thin films of amorphous Nb0.7Ge0.3, which is a good
representative of weak-pinning superconductors. There is a remarkable
difference between the noise below and above the irreversibility field Birr.
Below Birr, in the presence of measurable pinning, the noise at small applied
currents resembles shot noise, and in the regime of flux flow at larger
currents decreases with increasing voltage due to a progressive ordering of the
vortex motion. At magnetic fields B between Birr and the upper critical field
Bc2 flux flow is present already at vanishingly small currents. In this regime
the noise scales with (1-B/Bc2)^2 V^2 and has a frequency (f) spectrum of 1/f
type. We interpret this noise in terms of the properties of strongly driven
depinned vortex systems at high vortex density.Comment: 8 pages, 5 figures, version accepted for publication in PR

A. I. Bezuglyj

C. M. Knoedler

C. P. Bean

C. Schönenberger

C. Strunk

C. Sürgers

D. Babić

D. H. Kim

D. J. van Ooijen

D. T. Fuchs

E. Zeldov

F. Habbal

F. Lefloch

G. B. Lesovik

G. D’Anna

G. J. van Gurp

J. D. Thompson

J. M. E. Geers

J. R. Clem

M. B. Weissman

M. Büttiker

M. H. Theunissen

M. Henny

P. H. Kes

P. J. M. Wöltgens

S. F. W. R. Rycroft

T. Matsuda

T. Nussbaumer

English

arXiv

The modeling and control of a three-phase threes-witch buck-type rectifier system with integrated boost output stage (Voltage Range Extended 4-Switch Rectifier) is analyzed in this paper. A cascaded multiloop control structure is presented that has the following features: constant output voltage for a wide input voltage range and stepwise changes of load; sinusoidal input currents in phase with the mains voltages that also remain sinusoidal in case of unbalanced mains conditions; and active damping of the input filter resonance. For the control design, an equivalent dc-dc small-signal model of the converter is derived and verified by simulations and measurements. Based on this and on the identification of the critical operating point, the controllers for the inner dc current and outer voltage control loops are selected. The stability of the closed loop system is discussed and the robust operation of the system is verified by measurements on a 5-kW prototype

Babic, Dragutin

Nussbaumer, Thomas

Strunk, Christoph

Schönenberger, Christian

Sürgers, Christoph

University of Regensburg Publication Server

Vortex motion noise in micrometer-sized thin films of the amorphous Nb0.7Ge0.3 weak-pinning superconductor

Crossref

Vortex motion noise in micrometer-sized thin films of the amorphous
                    
                      
                        
                          
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https://epub.uni-regensburg.de/8089/1/Vortex_motion_noise.pdf