In 3D disordered pseudospin-s fermions the leading quantum interference correction to conductivity has universal magnitude matching conventional metals but sign fixed by parity of 2s, yielding WAL for half-integer s and WL for integer s.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
verdicts
UNVERDICTED 3representative citing papers
Non-Markovian quantum Langevin analysis of simple LC and bandpass filter couplings to Josephson parametric devices yields modified gain profiles with bandwidth broadening beyond standard Markovian predictions.
Ultralight Bose gases in MOND show an angle-dependent dispersion relation that produces orientation-varying Jeans instability.
citing papers explorer
-
Localization and universality of three-dimensional pseudospin-$s$ fermions
In 3D disordered pseudospin-s fermions the leading quantum interference correction to conductivity has universal magnitude matching conventional metals but sign fixed by parity of 2s, yielding WAL for half-integer s and WL for integer s.
-
Modeling of simple bandpass filters: bandwidth broadening of Josephson parametric devices due to non-Markovian coupling to dressed transmission-line modes
Non-Markovian quantum Langevin analysis of simple LC and bandpass filter couplings to Josephson parametric devices yields modified gain profiles with bandwidth broadening beyond standard Markovian predictions.
-
Anisotropic dispersion relation of ultralight Bose gases in modified Newtonian dynamics
Ultralight Bose gases in MOND show an angle-dependent dispersion relation that produces orientation-varying Jeans instability.