Abstract
Hydro- and thermodynamics of disordered magnetics are derived in the framework of Fermi-liquid approach. The spectra of free oscillations with and without external magnetic field are obtained and analysed. Low-frequency asymptotics of the Green function are calculated with a homogeneous magnetic field applied. The singularities of the basic Green functions are considered. (author). 18 refs.
Kovalevsky, M Yu;
[1]
Rozhkov, A A
[2]
- International Centre for Theoretical Physics, Trieste (Italy)
- Academy of Sciences, Kharkov (Ukraine). Inst. of Single Crystals
Citation Formats
Kovalevsky, M Yu, and Rozhkov, A A.
New Fermi-liquid approach for the theory of disordered magnetics.
IAEA: N. p.,
1994.
Web.
Kovalevsky, M Yu, & Rozhkov, A A.
New Fermi-liquid approach for the theory of disordered magnetics.
IAEA.
Kovalevsky, M Yu, and Rozhkov, A A.
1994.
"New Fermi-liquid approach for the theory of disordered magnetics."
IAEA.
@misc{etde_10112461,
title = {New Fermi-liquid approach for the theory of disordered magnetics}
author = {Kovalevsky, M Yu, and Rozhkov, A A}
abstractNote = {Hydro- and thermodynamics of disordered magnetics are derived in the framework of Fermi-liquid approach. The spectra of free oscillations with and without external magnetic field are obtained and analysed. Low-frequency asymptotics of the Green function are calculated with a homogeneous magnetic field applied. The singularities of the basic Green functions are considered. (author). 18 refs.}
place = {IAEA}
year = {1994}
month = {Oct}
}
title = {New Fermi-liquid approach for the theory of disordered magnetics}
author = {Kovalevsky, M Yu, and Rozhkov, A A}
abstractNote = {Hydro- and thermodynamics of disordered magnetics are derived in the framework of Fermi-liquid approach. The spectra of free oscillations with and without external magnetic field are obtained and analysed. Low-frequency asymptotics of the Green function are calculated with a homogeneous magnetic field applied. The singularities of the basic Green functions are considered. (author). 18 refs.}
place = {IAEA}
year = {1994}
month = {Oct}
}