Theory of Double-Sided Flux Decorations

C.A. Murray; D. A. Huse; D.G. Grier; D.R. Nelson; D.R. Nelson; D.R. Nelson; D.S. Fisher; D.S. Fisher; D.S. Fisher; David R. Nelson; E. Frey; E.M. Chudnovsky; G.J. Dolan; J. Pearl; L. Radzihovsky; M. Cristina Marchetti; M.C. Marchetti; M.C. Marchetti; P.L. Gammel; T. Hwa; V.N. Popov; Z. Yao

research

Theory of Double-Sided Flux Decorations

Authors: C.A. Murray
D. A. Huse
D.G. Grier
D.R. Nelson
D.R. Nelson
D.R. Nelson
D.S. Fisher
D.S. Fisher
D.S. Fisher
David R. Nelson
E. Frey
E.M. Chudnovsky
G.J. Dolan
J. Pearl
L. Radzihovsky
M. Cristina Marchetti
M.C. Marchetti
M.C. Marchetti
P.L. Gammel
T. Hwa
V.N. Popov
Z. Yao
Publication date: 15 December 1994
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A novel two-sided Bitter decoration technique was recently employed by Yao et al. to study the structure of the magnetic vortex array in high-temperature superconductors. Here we discuss the analysis of such experiments. We show that two-sided decorations can be used to infer {\it quantitative} information about the bulk properties of flux arrays, and discuss how a least squares analysis of the local density differences can be used to bring the two sides into registry. Information about the tilt, compressional and shear moduli of bulk vortex configurations can be extracted from these measurements.Comment: 17 pages, 3 figures not included (to request send email to [email protected]

Similar works

Full text

Available Versions

Crossref

Last time updated on 03/01/2020