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Колебания и бегущие полны в химических системах - Филд Р.

Филд Р. , Бургер М. Колебания и бегущие полны в химических системах. Под редакцией д-ра физ.-мат. наук, проф. А.М. Жаботинского — M.: Мир, 1988. — 720 c.
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34 Tyson 1. 1., Relaxation oscillations in the revized Oregonator, J. Chem. Phys., 80, 6079—6082, 1984,

35. Kumpinsky E., Epstein I. R., Effects of tempraturc on oscillatory behavior in the bromate-bromide-manganous system, J. Phys. Chem., 89, 688—92, 1985.

36. Varga M., Oyorgyi L., Koros E., A thorough study of bromide controle in bromate oscillators. 2. Simulation by the Oregonator model of the behavior of reacting Belousov — Zhabotinsky systems perturbed by bromo-complex-forming metal ions, J. Phys. Chem., 89, 1019—1022, 1985.

37. Rnoff P., Noyes R. M., Temporary Instability and unusual oscillatory behavior in a closed. Belousov — Zhabotinsky reaction system, J. Phys. Chem., 89, 1139-1141, 1985.

38. Bar-Eli K., Reuvcni S., Stable stationary states of coupled chemical oscillators. Experimental evidence, .1. Phys. Chem., 89, 1329—1330, 1985.

39. Brusa M. A., Prissinolti L. 1., Colussi A. 1., Electron spin resonance kinetic studies of malonyl radical self-decay and oxidation reactions by ce-rium(lV) and bromate in acid aqueous media. The role of free radicals in the Belousov — Zhabotinsky oscillator, J. Phys. Chem. 89, 1572—1574, 1985. '

40. llourai M., Kotalta 1., Kuwatu K., Bifurcation structure of the Belousov — Zhabotinskii reaction in a stirred flow reactor J. Phys Chem., 89, 1760— 1764, 1985.

4L 'If'H1-^!, Thc l)cristaltic e'fect on chemical oscillations, J. Phys. Chem., 89, 2852—2855, 1985,

42' 2855-2860 І985П1'П'"1а1 bromale 05сіИа10'' simplified, J. Phys. Chem., 89.

43. Field R. 1., Boyd P. M., Bromine-hydrolysis control in the cerium ion-

ChCmМ?'з7ОТ-37аі1 тҐ Bolo,lsov ~ Zhabotinskii Oscillator, J. Phys.

M- S'Ur.№ P-Mumann M., Measurement of bromine retno-

Trinslton і 7v11 ?1огУ,ВЫои.^-Zhabotinskii reaction of oxalic acid, finite eL ЇЇ 'T' cy,d?„,OSd,AUons 10 ^Hibility via saddle-node imitc period hifurcaton, J. Phys. Chem., 89, 4914—4921 1985

4.>. Caspar V.. Bazsa 0., Beck Al. T.. Bistahil i,7 L л к™'J.'.'„„,

Дополнительная литература

705

48. Crowley Al, field R. 1. Observation of a peculiar fenomenon in the cerium-ion-catalyzed Belousov — Zhabotinskii oscillator with acetvlacetone in CSTR mode, React. Kinet. Ctal. Lett., 28, 233-238, 1985 J"d«lone

40 Noszticzius 1., Gaspar V, Fdrsterling H.-D., Experimental test for the coiilrole intermediate in the Belousov — Zbabotinsky reaction J Am Chem. Soc, 107, 2314-2315, 1985. '

50. Weigh H., lunghahnell G., Oscillating chemiluminescence and photolumi-nescence correlations between oscillating chemiluminescence and species followed potentiometric technique in the Ru (bipy)|*-catalyzed Belousov — Zhabotinskii system, J. Chem, 25, 382—383, 1985.

51. McKlnnon C K., Field R. 1., Continuously stirred tank reactor bistability in the Belousov — Zhabotinskii reaction. Oregonator and Explodator models, J. Phys. Chem., 90, 166—168, 1986.

//

52. Varga Af., Gtjorgi L., Koros E., Bromate oscillators: determination of the source of bromide ion and modification of the chemical mechanism Atagy Kem. Foly. 92, 92—95, 1986.

53. Vajda S., Turanyi 7'., Principal component analysis for reducing the Edel-son-Field-Noyes model of Belousov — Zhabotinskii reaction J Phys Chem., 90, 1664—1670, 1986.

54. Crowley Al. F, Field R. 1., Electrically coupled Belousov — Zhabotinskii oscillators. 1. Experiments and simulations, J. Phys. Chem. 90, 1907— 1915, 1986.

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55. Varga Af, Koros E., Thorough study of bromide controle in bromate oscillators. 4. A quantitative and comprehensive study on silver ion perturbed Belousov—Zhabotinskii systems, J. Phys. Chem, 90,4373—4376, 1986.

56. Ruo[[ P., Noyes R. Л1, An amplified Oregonator model simulating alternative excitabilities, transitions in types of oscillations and temperatury bistability in a closed system, J. Chem. Phys, 84, 1413—1423, 1986.

57. Gaspar V, Galambosi P., Bifurcation diagram of the oscillatory Belousov— Zhabotinskii system of oxalic acid in a continuous flow tank reactor. Further possible evidence of saddle-node infinite period bifurcation behavior of the system, J. Phys. Chem, 90, 2222—2226, 1986.

58. Караваев А. Д., Казаков В. П., Толстиков В. А. Действие кислорода на автоколебания хемплюминесценции в системе бромат — малоновая кислота — 2,2'-динирнднловьііі комплекс рутения. — Теор. экспер. хим., 1986, т. 22, с 65—69.

59. Яцимирскпй К. Б., Лабуда Я-, Закревская Л. Н. Колебательный режим в каталитическом окислении аскорбиновой кислоты.—ДАН СССР, 1985, т- 285, с. 948—950.

60. Kpug Я, Kuhnert L., Pehl K.-W., Autocatalytic oxidation oi Os(bipy) з* and Ru(bipv)3+ by acidic bromate, J. Phys. Chem, in press.

61. Ваг-Eli K., Noyes R. M., Relevance of two-variable Oregonator to stable and unstable steady states and limit cycles, to the thresholds of Excitability and Hopf versus SNIPER bifurcation, J. Phys. Chem, in press.

62. Crowley AL F., Field R. 1., Electrically coupled Belousov — Zhabotinskii oscillators: experimental observation of chaos in a chemical system and identification of its source in the Field-Noves equations. In: Lectures Notes in Biomathematics, H Olhmer Ed, Springer-Verlag, New York, in press.
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