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Mode propagation in superconductors near T
c
Ora Entin-Wohlman
*
, R. Orbach
*
Corresponding author for this work
School of Physics and Astronomy
University of California at Los Angeles
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Scopus citations
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c
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Keyphrases
Gapless
100%
Superconductor
100%
Mode Propagation
100%
Magnetic Impurity
66%
Charge Density
33%
Order Parameter
33%
Propagation Mode
33%
Penetration Length
33%
Electric Field (E-field)
16%
External Field
16%
Linear Order
16%
Frequency Dependence
16%
Current Density
16%
Boltzmann Equation
16%
Conduction Electrons
16%
Wave Vector
16%
Leading Order
16%
Quasiparticles
16%
Phonon Scattering
16%
Diffusion Constant
16%
Electron Spin
16%
Ginzburg-Landau Equation
16%
Poisson Equation
16%
Continuity Equation
16%
Imaginary Component
16%
Transverse Component
16%
Spin-flip
16%
Plasma Frequency
16%
Inelastic Scattering Time
16%
Particle Distribution Function
16%
Scattering Time
16%
Impurity Scattering
16%
Pair Susceptibility
16%
Eliashberg Theory
16%
Phonon Inelastic Scattering
16%
WALDRAM
16%
Physics
Propagation Mode
100%
Phonon
100%
Boltzmann Equation
50%
Distribution Function
50%
Conduction Electron
50%
Elementary Excitation
50%
Landau-Ginzburg Equation
50%
Poisson Equation
50%
Inelastic Scattering
50%
Black Hole Spin-Flip
50%
Plasma Frequency
50%
Continuity Equation
50%
Electric Field
50%
Electron Spin
50%
Engineering
Propagation Mode
100%
Superconductor
100%
Magnetic Impurity
80%
Charge Density
40%
Propagating Mode
40%
Scattering Time
40%
External Field
20%
Explicit Expression
20%
Boltzmann Equation
20%
Leading Order
20%
Diffusive
20%
Continuity Equation
20%
Component Lead
20%
Electric Field
20%
Material Science
Superconducting Material
100%
Density
40%
Mathematics
Electron Spin
50%