Диссертация (1097947), страница 95
Текст из файла (страница 95)
Cross Sections for Electron Collisions with Nitrogen Molecules // J. Phys. Chem. Ref.Data. 2006. V. 35. No. 1. P. 31.659. Cartwright D.C., Trajmar S., Chutjian A, Williams W. Electron Impact Excitation of theElectronic States of N2 // Phys. Rev. A. 1977. V. 16. P. 1041.660. Berrington K.
A., Burke P. G., Robb W. D. The Scattering of Electrons by Atomic Nitrogen // J.Phys. B 1975. V. 8. P. 2500.661. Ormonde S., Smith K., Torres B.W., Davies A.R. Configuration-Interaction Effects in theScattering of Electrons by Atoms and Ions of Nitrogen and Oxygen // Phys. Rev. A. 1973. V. 8. P.262.662. Laux C.L. Optical Diagnostics and Radiative Emission of Air Plasmas. PhD Thesis. Stanford:Stanford University, 1993.663. Calo J.M., Axtmann J.R. Vibrational Relaxation and Electronic Quenching of the C3Пu (v' =1)State of Nitrogen // J. Chem. Phys. 1971. V. 54.
P. 1332.664. Dilecce G., Ambrico P.F., De Benedictis S. New N2(C3Πu,v) Collision Quenching and VibrationalRelaxation Rate Constants: 2. PG Emission Diagnostics of High-Pressure Discharges // PlasmaSources Sci. Technol. 2007. V. 16 P. S45.665. Лебедев Ю.А., Шахатов В.А. О параметрах неравновесного азотного СВЧ - разряда втрубке в прямоугольном волноводе // ТВТ. 2006. Т. 44. Вып. 5. С. 1499666. Лебедев Ю.А., Шахатов В.А. Диагностика неравновесной азотной плазмы по излучениювторой положительной системы азота // Физика Плазмы.
2006. Т. 32. № 1. С. 58.667. Полак Л.С., Словецкий Д.И., Урбас, А.Д., Федосеева Т.В. Релаксационные измерения имеханизмы возбуждения электронно-колебательных уровней молекул в тлеющем разряде вазоте // Химия плазмы. / Под. ред. Смирнов Б.М. Cб. ст. Вып. 5. М.: Атомиздат, 1978.668. Cung S., Lin C.C. Excitation of the Electronic States of the Nitrogen Molecule by Electron Impact// Phys. Rev.
A 1972. V. 6. P. 988.669. Pancheshyi S.V., Starikovskaia S.M., Starikovskii A. Yu. Collisional deactivation ofN2 (C 3u , vC 0,1, 2,3) states by N2, O2, and H2O molecules // Chem. Phys. 2000. V.262 P.349.670. Nichols L.L., Wilson W.E. Optical Lifetime Measurements Using a Positive Ion Van De Graaff.Accelerator // Appl. Opt.
1968. V. 7. P. 167.671. Millet P., Salamero Y., Brunet H. et. al. De‐excitation of N2 (C3Πu ; ν' = 0 and 1) Levels inMixtures of Oxygen and Nitrogen // J. Chem. Phys. 1973. V. 58. P. 5839.672. Albugues F., Birot A., Blanc D. et. al. Destruction of the Levels C3Π u (ν′=0, ν′=1) of Nitrogen byO2, CO2, CH4, and H2O // J. Chem. Phys. 1974. V. 61. P.
2695.673. Chen C.H., Payen M.G., Hurst G.S. et. al. Kinetic Studies of N2 and N2–SF6 Following ProtonExcitation // J. Chem. Phys. 1976. V. 65. P. 3863.674. Carr T. W., Dondes S. Direct Measurement of the Radiative Lifetime and Collisional Quenchingof the C3Пu State of Nitrogen as Studied by Pulse Radiolysis// J. Phys. Chem. 1977. V. 81.
P. 2225.675. Becker K.H., Engels H., Tatarczyk T. Lifetime Measurements of the C3Пu State of Nitrogen byLaser-Induced Fluorescence // Chem. Phys. Lett. 1977. V. 51. P. 111.676. Gat E., Gherardi N., Lemoing S. et. al. Quenching Rates of N2(C,v′) Vibrational States in N2 andHe Glow Silent Discharges // Chem. Phys. Lett. 1999.
V. 306. P. 263.677. Hesser J. E. Absolute Transition Probabilities in Ultraviolet Molecular Spectra // J. Chem. Phys.1967. V. 48. No. 6. P. 2518.678. Аратюнян Г. Г., Галечян Г.А. Влияние диссоциативного прилипания на устойчивостьположительного столба в электроотрицательных газах // ЖТФ. 1978. Т. 48. С. 631.679. Urosevich V.V., Bozin J.V., Petrovich Y.L. // Z. Phys. A 1983. V. 39. P.
293.680. Dreyer J.W., Perner D. Deactivation of N2(A3u+, v=0–7) by Ground State Nitrogen, Ethane, andEthylene Measured by Kinetic Absorption Spectroscopy // J. Chem. Phys. 1973. V. 58. No 3. P. 1195.681. Johnson A.W., Fowler R.G. Measured Lifetimes of Rotational and Vibrational Levels ofElectronic States of N2 // J. Chem. Phys. 1970. V. 53 P.
65.682. Hartfuss H.J., Schmillen A. Uber das Abklingen der ersten positiven Gruppe des N2 und derAsundi-Banden des CO // Z. Naturforsch. 1968. Bd. 32a. S. 722.500683. Jonathan N., Petty R. Studies of the Nitrogen Yellow Afterglow at Low Pressures // J. Chem.Phys. 1969. V. 50.
P. 3804.684. Jeunehomme M., Duncan A.B.F. Lifetime Measurements of Some Excited States of Nitrogen,Nitric Oxide, and Formaldehyde // J. Chem. Phys. 1964. V. 41. P. 1692.685. Brennen W., Shane E.C. Pressure-dependence of the .yellow nitrogen afterglow intensity. //Chem. Phys. Letters 1968. V. 2. P. 143.688. Jordan D. C., Burns C. T., Dork R. B. Corona discharge supersonic free-jet for III–V nitridegrowth via A3+u metastable nitrogen molecules // J. Appl.
Phys. 2001. V. 89. No. 2. P. 883.689. Piper L.G. State-to-State N2(A3Eu+) Energy Pooling Reactions. II. The Formation and Quenchingof N2(B3Пg, v=1-12) // J. Chem. Phys. 1988. V. 88. P. 6911.690. Flagan R.C., Appleton J.P. Excitation Mechanisms of the Nitrogen Frist‐Positive andFirst‐Negative Radiation at High Temperature // J. Chem. Phys. 1972. V. 56. No. 3. P. 1163.691.
Piper L G The excitation of N(2P) by N2(A3u+, v = 0,1) // J. Chem. Phys. 1989. V. 90. P. 7087.692. Young R.A., John G.A. St. Experiments on N2(A3Σ+u) . I. Reaction with N // J. Chem. Phys. 1968.V. 48. P. 895.693. Meyer A., Setser D. W., Stedman D. H. Energy transfer reactions of N2(A3Σ+u). II. Quenching andemission by oxygen and nitrogen atoms // J. Phys. Chem. 1970. V. 74 P. 2238.694. Bohmer E., Hack W. Elementary Reactions of N2(A3Σ+u) with H2, F2 and H2C2O in the Gas Phase// Ber. Bunsenges. Phys.
Chem. 1989. V. 93. P. 170.695.Vidaud P.H., Wayne R.P., Yaron M., von Engel A. Collisional quenching of N2(A3Σu+, v= 0, 1) byN Atoms in the Ground State and a Pyrex Surface // J. Chem. Soc. Faraday Trans. 1976. V. 72 P. 1185.696. Dunn O. J., Young R. A. Quenching of N2(A3Σu+) by O2, O, N, and H // Int. Chem. Kinetics 1976.V. 8. P. 161.697. Gilmore F. R., Bauer E., McGowan J.
W. A Review of Atomic and Molecular ExitationMechanisms in Nonequilibrium Gases up to 20000 K // J. Quant. Spectrosc. Radiat. Transfer. 1969. V.9. P. 157.698. Donovan R. J., Husain D. Recent Advances in the Chemistry of Electronically Excited Atoms //Chemical Reviews. 1970. V. 70. P. 489.699. Dreyer J.W., Perner D. The Deactivation of N2(B3Пg,v=0-2) and N2(a’1-u,v=0) by Nitrogen //Chem. Phys. Letters 1972. V.
16. P. 169.700. Callear A.B., Wood P.M. Rates of Energy Transfer from N2 (A3+u)to Various Molecules. Initialand Final Quantum States in the Transfer to NO(X2П) and Hg(61S0), and Vibrational Relaxation ofN2(A3+u, v=1) in Helium // Trans. Faraday Soc. 1971. V. 67. P. 272.501701. Black G., Slanger T.G., John G. A. St., Young R.A. Vacuum‐Ultraviolet Photolysis of N2O.
IV.Deactivation of N(2D) // J. Chem. Phys. 1969. V. 51. P. 116.702. Levron D., Phelps A.V. Quenching of N2(A3Σ+u , v=0,1) by N2, Ar, and H2 // J. Chem. Phys. 1978.V. 69. P. 2260.703. Suzuki S., Itoh H., Sekizawa H. et. al. Loss Processes of N2(A3Σ+u) in N2+CO Mixture Gases // J.Phys. Soc.
Jpn. 1993. V. 62 P. 2692.704. Suzuki S., Itoh H., Sekizawa H. et. al. Loss Processes of N 2 (A 3Σu+) by Harmful Gases // Jpn. J.Appl. Phys. 1997. Part I. V. 36 P. 4744.705. Piper L.G. Quenching rate coefficients for N2(a′ 1Σ−u) // J. Chem. Phys. 1987. V. 87. P. 1625.706. Nagpal R., Ghosh P. K. Electron Energy Distribution Functions and Vibrational PopulationDensities of Excited Electronic States in DC Discharges through Nitrogen // J.
Phys. D: Appl. Phys.1990. V. 23. P. 1663.707. Magne L., Cernogora G., Veise P. Relaxation of Metastable N2(a1Пg, V'=0-2) in NitrogenAfterglow // J. Phys. D: Appl. Phys. 1992. V. 25. P. 472.708. Голубовский Ю. Б., Тележко В. М. Процессы возбуждения электронно-возбужденныхсостояний в разряде при средних давлениях // ТВТ.
1984. Т. 22. Вып. 5. С. 996.709. Силаков В.П. Влияние процессов ассоциативной ионизации электронно-возбужденныхметастабилей на электрическую прочность слабоионизированного молекулярного азотавысокого давления // Физика Плазмы. 1988.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
