Geodesic
Application of the transfer matrix method to lattice systems without translational invariance
Sibirskij žurnal industrialʹnoj matematiki, Tome 9 (2006) no. 1, pp. 106-115 
A. V. Mishliavtsev; M. D. Mishliavtseva; R. K. Romanovskii. Application of the transfer matrix method to lattice systems without translational invariance. Sibirskij žurnal industrialʹnoj matematiki, Tome 9 (2006) no. 1, pp. 106-115. http://geodesic.mathdoc.fr/item/SJIM_2006_9_1_a8/
@article{SJIM_2006_9_1_a8,
     author = {A. V. Mishliavtsev and M. D. Mishliavtseva and R. K. Romanovskii},
     title = {Application of the transfer matrix method to lattice systems without translational invariance},
     journal = {Sibirskij \v{z}urnal industrialʹnoj matematiki},
     pages = {106--115},
     year = {2006},
     volume = {9},
     number = {1},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/SJIM_2006_9_1_a8/}
}
TY  - JOUR
AU  - A. V. Mishliavtsev
AU  - M. D. Mishliavtseva
AU  - R. K. Romanovskii
TI  - Application of the transfer matrix method to lattice systems without translational invariance
JO  - Sibirskij žurnal industrialʹnoj matematiki
PY  - 2006
SP  - 106
EP  - 115
VL  - 9
IS  - 1
UR  - http://geodesic.mathdoc.fr/item/SJIM_2006_9_1_a8/
LA  - ru
ID  - SJIM_2006_9_1_a8
ER  - 
%0 Journal Article
%A A. V. Mishliavtsev
%A M. D. Mishliavtseva
%A R. K. Romanovskii
%T Application of the transfer matrix method to lattice systems without translational invariance
%J Sibirskij žurnal industrialʹnoj matematiki
%D 2006
%P 106-115
%V 9
%N 1
%U http://geodesic.mathdoc.fr/item/SJIM_2006_9_1_a8/
%G ru
%F SJIM_2006_9_1_a8

Voir la notice de l'article provenant de la source Math-Net.Ru

[1] Kang H. C., Weinberg W. H., “Modelling the kinetics of heterogeneous catalysis”, Chem. Rev., 95 (1995), 667–676 | DOI

[2] Binder K., “Phase transitions at surfaces”, Cohesion and Structure of Surfaces, v. 4, Amsterdam, 1995, 121–187

[3] Zhdanov V. P., Elementary Physicochemical Processes on Solid Surfaces, Plenum, New York, 1991

[4] Lombardo S. J., Bell A. T., “A review of theoreticalmodels of adsorption, diffusion, desorption and reaction of gases on metal surfaces”, Surface Sci. Reports, 13 (1991), 3–72 | DOI

[5] Baxter R. J., Exactly Solved Models in Statistical Mechanics, Acad. Press, London, 1982 | MR | Zbl

[6] Runnels L. K., Combs L. L., “Exact finite method of lattice statistics. I: Square and triangular lattice gases of hard molecules”, J. Chem. Physics, 45 (1966), 2482–2492 | DOI

[7] Sales J. L., Zgrablich G., “Thermal desorption of interacting molecules from heterogeneous surfaces application to CO desorption from MgO”, Surface Sci., 187 (1987), 1–20 | DOI

[8] Myshlyavtsev A. V. , Myshlyavtseva M. D., “Thermodynamics for latticemodels with randomly distributed quenched impurities: exact solution”, Physics of Low-Dimensional Structures, 9–10 (2000), 127–135

[9] Myshlyavtsev A. V., Myshlyavtseva M. D., Vychislitelnye aspekty metoda transfer-matritsy, izd. TuvIKOPR SO RAN, Kyzyl, 2000

[10] Derrida B., Seze L. de, Vannimenns J., “Finite size scaling and phenomenological renormalization”, Lecture Notes in Phys., 149, 1981, 46–50

[11] Krasnoselskii M. A., Zabreiko P. P., Geometricheskie metody nelineinogo analiza, Nauka, M., 1975 | MR