Results 191 to 200 of about 70,032 (230)
Some of the next articles are maybe not open access.
1999
This chapter discusses the extension of the theory to allow spatial variation in the order parameter and determining the shape of the interface and the surface contribution to the free energy. It describes the size of fluctuations of the order parameter, determining whether they are sufficiently small to be ignored or whether they dominate the ...
Roger Bowley, Mariana Sánchez
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This chapter discusses the extension of the theory to allow spatial variation in the order parameter and determining the shape of the interface and the surface contribution to the free energy. It describes the size of fluctuations of the order parameter, determining whether they are sufficiently small to be ignored or whether they dominate the ...
Roger Bowley, Mariana Sánchez
openaire +1 more source
SCATTERING OF GINZBURG–LANDAU VORTICES
Journal of Mathematical Sciences, 2022openaire +2 more sources
2004
Abstract The superconducting state and the normal metallic state are separate thermodynamic phases of matter in just the same way as gas, liquid, and solid are different phases. Similarly, the normal Bose gas and Bose–Einstein Conden-sate (BEC), or normal liquid He and superfluid He II are separated by a thermodynamic phase transition.
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Abstract The superconducting state and the normal metallic state are separate thermodynamic phases of matter in just the same way as gas, liquid, and solid are different phases. Similarly, the normal Bose gas and Bose–Einstein Conden-sate (BEC), or normal liquid He and superfluid He II are separated by a thermodynamic phase transition.
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1979
We have seen in Sect.2 that a superconductor often resides in a state of high spatial inhomogeneity. Here the intermediate state and the situation near a domain wall are just an example showing spatial variations of the order parameter. Spatial inhomogeneity is displayed perhaps even more importantly in the case of the vortex state in type-II ...
openaire +1 more source
We have seen in Sect.2 that a superconductor often resides in a state of high spatial inhomogeneity. Here the intermediate state and the situation near a domain wall are just an example showing spatial variations of the order parameter. Spatial inhomogeneity is displayed perhaps even more importantly in the case of the vortex state in type-II ...
openaire +1 more source
On the Ginzburg-Landau equations
Archive for Rational Mechanics and Analysis, 1964Carroll, Robert W., Glick, A. J.
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An introduction to the Ginzburg–Landau theory of phase transitions and nonequilibrium patterns
Physics Reports, 2015A P Krekhov
exaly
First integrals and general solution of the complex Ginzburg-Landau equation
Applied Mathematics and Computation, 2020Nikolay A Kudryashov
exaly
Analysis and Approximation of the Ginzburg–Landau Model of Superconductivity
SIAM Review, 1992Qiang Du, Max D Gunzburger
exaly
A computer simulation of the time‐dependent Ginzburg–Landau model for spinodal decomposition
Journal of Chemical Physics, 1983Rolfe G Petschek, H Metiu
exaly

