Колебания и бегущие полны в химических системах - Филд Р.
Скачать (прямая ссылка):
714. Noyes R. M., Bar-Eli K. (1977), Oscillations in Chemical Systems. Part 20. A Comparison of Mechanisms tor the Oxidation of Cerium (III) bv Acidic Bromate, Can. J. Chem, 55, 3156.
715. Noyes R. M., Field R. J. (1977), Oscillations in Chemical Svstems, Part 19. Mechanisms ot Chemical Oscillators: Experimental Examples, Acc Chem. Res, 10, 273.
716. Noyes R. M. (1980a), Chemical Oscillations and Instabilities Part 39. A Generalized Mechanism for Bromate-Driven Oscillators J. Am Chem Soc, 102, 4644.
717. Noyes R. M (1980b), Chemical Oscillations and Instabilities, Part 37. A Simple Model for Examining Mixing of Pumped Stationarv States, J. cnem. Phys, 72, 3454
718'
MS*ciarLi„9o^;rne ^ ^ Ъ ™
.Wn0SlLnUe3S0"pT "« ' iVl"T Vі (l982)' Chemica] Oscillations -о/Ые-Рег^ '^8,ГЄП'5 °" U,C °Sdl,at0ry
ЛйЯЛ"* І>'"ТС Г^'і0" °f Carb™ Monoxide constant of Accumulation, Proc. Phys. Math. Soc. .lap (3) і 43.
724. О'МаПеу Я Е. (1974), Introduction to Singular Perturbations, Academic
725 Op5/T (І948), Ober Ortskurvenvertahren bei Regelvorgangen mit Rei-bung, Z. Deut. Ing. Berlin, 90, 179.
726 Orban M.. Koros E. (1978a), Novel Type of Oscillatory Chemical Reaction, Read. Kinet. Catal. Lett, 8, 273.
727 Orban M Koros E. (1978b), Chemical Oscillations During the Uncata-' lyzed Reaction of Aromatic Compounds with Bromate, Part 1. Search for
Chemical Oscillators, J. Phys. Chem, 82, 1672.
728 Orban M., Koros E. (1979), Uncatalyzed and Catalyzed Bromate Oscilla-tors: A Comparison, Kinetics of Physico-Chemical Oscillations, Discussion Meeting Deutsche Bursen Gesellschaft fiir Physikalische Chemie, Aachen, preprints of submitted papers, p. 83.
729. Orban ГЛ., Koros E., Noyes R. Af. (1979), Chemical Oscillations During the Uncatalyzed Reaction ot Aromatic Compounds with Bromate, Part 2. A Plausible Skeleton Mechanism, J. Phys. Chem, 83, 3056.
730. OrMn M. (1980), Stationary and Moving Structures in Uncatalyzed Oscillatory Chemical Reactions, J. Am. Chem. Soc, 102, 4311.
731. Orban M, Epstein I. R. (1981a), Oscillations and Bistabililv in Hydrogen-Platinum-Oxyhalogen Systems, J. Am. Chem. Soc, 103, 3723.
732. Orban M.. Epstein I. R. (1981b), A New Type of Chemical Oscillator: Potential Oscillation and Bistability in Some Aqueous Hydrogen-Halogen (ate) Pumped Systems, in Vidal C and Pacault A, Eds, Nonlinear Phenomena in Chemical Dynamics, Springer-Verlag, Berlin, p. 197.
733. Orban M, De Kepper P., Epstein I. R., Kustin K. (1981), Systematic Desing of Chemical Oscillators, Part 4. New Family ot Homogeneous Chemical Oscillators: Chlorile-lodate-Substrate, Nature, 292, 816.
734. Orban M.. Epstein I. R. (1982a), Systematic Design of Chemical Oscillators, Part 12. Bistability in lhe Oxidation of Iron(II) by Nitric Acid, J. Am. Chem. Soc, 104, 5918.
735. Orban M, Epstein I. R. (1982b), Systematic Design of Chemical Oscillators, Part 13. Complex Periodic and Aperiodic Oscillation in the Chlor-he-Thiosulfale Reaction, J. Phys. Chem, 86, 3907
736. OrMn M. De Kepper P., Epstein I. R. (1982a), Systematic Design of Utcmica Oscillators, Part 10. Minimal Bromale Oscillator- Bromate-Brom-ide-Catalysl, J. Am. Chem. Soc, 104, 2657
737. OrMn M. De Kepper P., Epstein I. R. (1982b), Systematic Design of
Tpsi;dbtors. Part 7. An Iodine-Free Chlorite-Based Oscillator. The Uiliritt-l iosnlia e Reaction in a Continuous Flow Stirred Tank Reactor, J. Phys. Chem, 86, 431
738' De^',, Рь'С0 <;-гРе-чКі!рІ":г P- ?Pste'« '• R- (1982c), Systematic nerimL г ,al °4ala0,S' Parl 11 ¦ Chlorite Oscillators: New Ex-ChZ Soc. 104 59П Tnstability and Preliminary Classification, J. Am.
739 .?»? '• *• і'983'.' Sys'em»»< Design of Chemical Oscilla-1 Phys Chem 87Г(3212 °m 0scniators: Bromate-Chlorile-Reduclant.
Z ^r^^^^^0^1 Rcadio,,s w,,h
7 ¦ ^Oscillatory Chemical Reac-
743 Sr^-^'^vs.^^^ °' W- Pl— '» Ch™"
VIJ1 Qr(olei>a P Puss J MQ7<i ті, „ г n
Kinetic Systems WiIh1MuIOnU l\l ^Р'У^іоп »' Discontinuities in ami Pulses, j. Chem Phys 63, 339™ S°a'CS; Fr0,Us' Front Mullipltcity
744. Ortoleva P. (1978a), Selected Topics from the Theory of Nonlinear Phy-sico-Chemical Phenomena, in Eyring H. and Henderson D., Eds., Theoretical Chemistry, Vol. 4, Academic Press, New York, p. 235.
745. Ortoleva P. (1978b), Dynamic Pade Approximants in the Theory of Periodic and Chaotic Chemical Center Waves, J. Chem. Phys., 69, 300.
7-16. Ortoleva P. (1983a), Modeling Nonlinear Wave Propagation and Pattern Formation at Geological First Order Phase Transitions, Proc. NATO Conf. on Instabilities and Fluctuations in Chemical, Engineernig and Geological Systems, Austin, Tex., March 1983.
747. Ortoleva P. (1983b), Nonlinear Waves and Patterns in Geological and Biological Systems, Proc. 3rd Ann. Conf. on Patterns and Interfaces Los Alamos, May 1983.
748. Oslwald W. (1925), The Theory of Liesegang Rings, Kolloid. Z. 36, 330.
749. Ollimer H. G. (1976a), Temporal Oscillations in Reacting Systems, Proc. IEEE Conf. on Cybernetics and Society, IEEE, New York, p. 314.