Geodesic
Analysis of traveling solitary waves in a four-component reaction-diffusion model
Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 41 (2001) no. 10, pp. 1597-1609 
E. S. Kurkina; A. V. Malykh. Analysis of traveling solitary waves in a four-component reaction-diffusion model. Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 41 (2001) no. 10, pp. 1597-1609. http://geodesic.mathdoc.fr/item/ZVMMF_2001_41_10_a11/
@article{ZVMMF_2001_41_10_a11,
     author = {E. S. Kurkina and A. V. Malykh},
     title = {Analysis of traveling solitary waves in a four-component reaction-diffusion model},
     journal = {\v{Z}urnal vy\v{c}islitelʹnoj matematiki i matemati\v{c}eskoj fiziki},
     pages = {1597--1609},
     year = {2001},
     volume = {41},
     number = {10},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/ZVMMF_2001_41_10_a11/}
}
TY  - JOUR
AU  - E. S. Kurkina
AU  - A. V. Malykh
TI  - Analysis of traveling solitary waves in a four-component reaction-diffusion model
JO  - Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki
PY  - 2001
SP  - 1597
EP  - 1609
VL  - 41
IS  - 10
UR  - http://geodesic.mathdoc.fr/item/ZVMMF_2001_41_10_a11/
LA  - ru
ID  - ZVMMF_2001_41_10_a11
ER  - 
%0 Journal Article
%A E. S. Kurkina
%A A. V. Malykh
%T Analysis of traveling solitary waves in a four-component reaction-diffusion model
%J Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki
%D 2001
%P 1597-1609
%V 41
%N 10
%U http://geodesic.mathdoc.fr/item/ZVMMF_2001_41_10_a11/
%G ru
%F ZVMMF_2001_41_10_a11

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

[1] Kolmogorov A. N., Petrovskii I. G., Piskunov N. S., “Issledovanie uravneniya diffuzii, soedinennoi s vozrastaniem kolichestva veschestva, i ego primenenie k odnoi biologicheskoi probleme”, Byul. MGU. Sek. A, 1:6 (1937), 1–26 | MR

[2] Zeldovich Ya. B., Frank-Kamenetskii D. A., “Teoriya teplovogo rasprostraneniya plameni”, Zh. fiz. khimii, 12:1 (1938), 100–105

[3] Snytnikov V. N., “Uedinennye beguschie volny v geterogennoi srede s khimicheskimi reaktsiyami”, Fizika goreniya i vzryva, 34:3 (1998), 29–35

[4] Bar M., Zulicke Ch., Eiswirth M., Ertl G., “Theoretical modeling of spatio-temporal selforganization in a surface catalyzed reaction exhibiting bistable kinrtics”, J. Chem. Phys., 96:11 (1992), 8595–8604 | DOI

[5] Osipov V. V., “Criteria of spontaneous interconversions of traveling and static arbitrary dimensional dissipative structures”, Physica D, 93 (1996), 143–156 | DOI | Zbl

[6] Kerner B. S., Osipov V. V., Avtosolitony. Lokalizovannye silnoneravnovesnye oblasti v odnorodnykh dissipativnykh sistemakh, Nauka, M., 1991 | Zbl

[7] Vasilev V. A., Romanovskii Yu. M., Yakhno V. G., Avtovolnovye protsessy, Nauka, M., 1987

[8] Veser G., Imbihl R., “Synchronization and spatiotemporal self-organization in the $\mathrm{NO}+\mathrm{CO}$ reaction on $\mathrm{Pt}(100)$. 1: Unsynchronized oscillations on the $1\times1$ substrate”, J. Chem. Phys., 100:11 (1994), 8483–8491 | DOI

[9] Zimmerman M. G., Firle S. O., Natiello M. A. et al., “Pulse bifurcation and transition to spaiotemporal chaos in an excitable reaction-diffusion model”, Physica D, 110 (1997), 290–299 | DOI | MR

[10] Krishnan J., Kevrekidis I. G., Or-Guil M. et al., “Numerical bifurcation and stability analysis of solitary pulses in an excitable reaction-diffusion medium”, Comput. Methods Appl. Engng., 170 (1999), 253–275 | DOI | MR | Zbl

[11] Nishiura Y., Ueyama D., “Self-replication, self-destruction and spatio-temporal chaos in the Gray-Skott model”, Forma, 15 (2000), 281–289 | MR | Zbl

[12] Merkin J.-H., Petrov V., Scott S.-K., Showalter K., “Wave-induced chaos in a cóntinuously fed unstirred reactor”, J. Chem. Soc., Faraday Trans., 92:16 (1996), 2911–2918 | DOI

[13] Fink T., Dath J.-P., Basset M. R. et al., “The mechanism of the “explosive” $\mathrm{NO}+\mathrm{CO}$ reaction on $\mathrm{Pt}(100)$: experiments and mathematical modeling”, J. Surfael. Sci., 245 (1991), 96–110 | DOI

[14] Fink T., Dath J.-P., Imbihl R., Ertl G., “Kinetic oscillations in the $\mathrm{NO}+\mathrm{CO}$ reaction on $\mathrm{Pt}(100)$: experiments and mathematical modeling”, J. Chem. Phys., 95 (1991), 2109–2118 | DOI

[15] Makeev A. G., “Matematicheskaya model reaktsii $\mathrm{NO}+\mathrm{CO}/\mathrm{Pt}(100)$. Sravnenie rezultatov raschetov s eksperimentalnymi dannymi”, Matem. modelirovanie, 1996, no. 2, 115–127 | Zbl

[16] Kurkina E. S., Makeev A. G., “Bifurkatsionnyi analiz matematicheskoi modeli reaktsii $\mathrm{NO}+\mathrm{CO}/\mathrm{Pt}(100)$”, Obratnye zadachi estestvoznaniya, Izd-vo MGU, M., 1997, 52–78

[17] Kurkina E. S., Malykh A. V., “Issledovanie neustoichivosti Tyuringa v chetyrekhkomponentnoi matematicheskoi modeli reaktsii $\mathrm{NO}+\mathrm{CO}/\mathrm{Pt}(100)$”, Matematika. Kompyuter. Obrazovanie, Tr. konf., Dubna, 1998, 169–176

[18] Kurkina E. S., Malykh A. V., Makeev A. G., “Issledovanie avtovolnovykh i khaoticheskikh struktur v raspredelennoi chetyrekhkomponentnoi matematicheskoi modeli reaktsii $\mathrm{NO}+\mathrm{CO}/\mathrm{Pt}(100)$”, Chisl. metody i vychisl. eksperiment, Izd-vo MGU, M., 1998, 44–63

[19] Akhromeeva T. S., Kurdyumov S. P., Malinetskii G. G., Samarskii A. A., Nestatsionarnye struktury i diffuzionnyi khaos, Nauka, M., 1992 | MR | Zbl

[20] Monot R., Croci M., Calpini B., “Chemisorption and surface diffusion on model catalyst surfaces: Molecular beam studies”, Analysis Mag., 21:8 (1993), 28–35

[21] Kurkina E. C., Malykh A. V., Uedinennye beguschie volny v odnoi modeli geterogennoi kataliticheskoi reaktsii, Preprint, Dialog-MGU, M., 2000