Geodesic
Thermodynamic Energy of Semi-Infinite Solids with a Two-Dimensional Hot Electron Gas near the Surface
Teoretičeskaâ i matematičeskaâ fizika, Tome 127 (2001) no. 2, pp. 336-352 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

Expressions for the thermodynamic energy of semi-infinite solids with a hot electron layer near the stress-free surface are derived for films and for large samples. Conditions are determined under which this energy is associated with the hot electron excitation energy, with the nonequilibrium Rayleigh waves energy, and with the equilibrium bulk phonon energy. The calculations use the Keldysh diagram technique. 
@article{TMF_2001_127_2_a6,
     author = {L. A. Zaitseva},
     title = {Thermodynamic {Energy} of {Semi-Infinite} {Solids} with a {Two-Dimensional} {Hot} {Electron} {Gas} near the {Surface}},
     journal = {Teoreti\v{c}eska\^a i matemati\v{c}eska\^a fizika},
     pages = {336--352},
     year = {2001},
     volume = {127},
     number = {2},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/TMF_2001_127_2_a6/}
}
TY  - JOUR
AU  - L. A. Zaitseva
TI  - Thermodynamic Energy of Semi-Infinite Solids with a Two-Dimensional Hot Electron Gas near the Surface
JO  - Teoretičeskaâ i matematičeskaâ fizika
PY  - 2001
SP  - 336
EP  - 352
VL  - 127
IS  - 2
UR  - http://geodesic.mathdoc.fr/item/TMF_2001_127_2_a6/
LA  - ru
ID  - TMF_2001_127_2_a6
ER  - 
%0 Journal Article
%A L. A. Zaitseva
%T Thermodynamic Energy of Semi-Infinite Solids with a Two-Dimensional Hot Electron Gas near the Surface
%J Teoretičeskaâ i matematičeskaâ fizika
%D 2001
%P 336-352
%V 127
%N 2
%U http://geodesic.mathdoc.fr/item/TMF_2001_127_2_a6/
%G ru
%F TMF_2001_127_2_a6
L. A. Zaitseva. Thermodynamic Energy of Semi-Infinite Solids with a Two-Dimensional Hot Electron Gas near the Surface. Teoretičeskaâ i matematičeskaâ fizika, Tome 127 (2001) no. 2, pp. 336-352. http://geodesic.mathdoc.fr/item/TMF_2001_127_2_a6/

[1] L. D. Landau, E. M. Lifshits, Statisticheskaya fizika, Ch. 1, Nauka, M., 1976 | MR

[2] V. L. Bonch-Bruevich, S. G. Kalashnikov, Fizika poluprovodnikov, Nauka, M., 1977

[3] L. D. Landau, E. M. Lifshits, Teoriya uprugosti, Nauka, M., 1987 | MR | Zbl

[4] W. Rayleigh, London. Math. Soc. Proc., 17 (1887), 4 | DOI

[5] V. Dupuis, R. Maro, L. Onsager, Journ. Chem. Phys., 33 (1960), 1452 | DOI | MR

[6] A. Maradudin, Defekty i kolebatelnyi spektr v kristallakh, Mir, M., 1968

[7] L. A. Zaitseva, Khim. fizika, 19 (2000), 3

[8] L. A. Zaitseva, TMF, 115 (1998), 289 | DOI | Zbl

[9] M. I. Kaganov, I. M. Lifshits, L. V. Tanatarov, ZhETF, 31 (1956), 232 | MR

[10] S. M. Badalyan, I. B. Levinson, FTT, 30 (1988), 2764

[11] L. V. Keldysh, ZhETF, 47 (1964), 1515

[12] E. M. Lifshits, L. P. Pitaevskii, Fizicheskaya kinetika, Nauka, M., 1979 | Zbl

[13] A. A. Maradudin, D. L. Mills, Annals of Physics, 100 (1976), 262 | DOI

[14] A. A. Abrikosov, L. P. Gorkov, I. E. Dzyaloshinskii, Metody kvantovoi teorii polya v statisticheskoi fizike, Nauka, M., 1962 | MR