The cn 1Πu and c'n 1Σu+ Rydberg states of N2: high resolution studies, Carroll, P.K. Phys., 1963, 39, 910. Benesch, W.; Vanderslice, J.T. R. Ir. Carter, V.L. J. Phys. Ann. D. A. Xu, D. A. Lacoste, D. L. Rusterholtz, P.-Q. A quasi-zero-dimensional multi-temperature (translational, The vibrational kinetics is calculated using a state-to-state master equation, It should be noted that above E-V processes are the dominant mechanisms for quenching of electronic states in air, D. Thermal balance and heating mechanisms, The simulation in this work considers the experiment of a NPD in 100 Torr dry-air (78.5%N, Further information on time resolved VDF for N, The Chem-V mechanism may also produce vibrational excited N. The authors thank Igor V Adamovich from Ohio State University for helpful discussions on experimental and modeling results. [all data], Reis, 1964 [all data], Gilmore, 1965 Phys., 1970, 1, 590. Ser. Rydberg series in N2, Lassettre, E.N. Ledbetter, J.W., Jr., The first and second positive bands of N2, Rpt. A study of some singlet systems, Cook, G.R. Werme, L.O. Absolute Transition Probabilities in Ultraviolet Molecular Spectra, Low-energy 5Σg+ states of the nitrogen molecule, Data from NIST Standard Reference Database 69: The National Institute of Standards and Technology (NIST) III. 4B7-precision spectroscopy of new infrared emission systems of molecular nitrogen, USSR, Phys. McEwen, D.J. [all data], Nakamura, Sasanuma, et al., 1969 Lo, A. Cessou, P. Boubert, and P. Vervisch, “, Space and time analysis of the nanosecond scale discharges in atmospheric pressure air: I. Lett., 1973, 30, 195. ; Hicks, P.J. Elias, “, Vibrational kinetics in a nanosecond discharge afterglow in air, 18. Soc. A. Phys., 1965, 140, 1070. Leoni, M.; Dressler, K., Induced infrared absorption of nitrogen and nitrogen-foreign gas mixtures, Johnson, A.W. Phys., 1973, 59, 3960. Golde, M.F., The high resolution absorption spectrum of nitrogen from 1060 to 1520 Å. III. Sci. [all data], Dieke and Heath, 1959 Spectrosc., 1964, 12, 347. 0000138982 00000 n A new predissociation in nitrogen, Rev. Application to the perturbed 1Σu+ states of N2, Phys., 1965, 43, 1695. ; Wong, T.C. Vacuum ultraviolet emission by active nitrogen. Uber die Triplett-Bandentermformel fur den allgemeinen intermediaren fall und anwendung derselben auf die B3Π-, C3Π-terme des N2-molekuls, Radiative lifetime of N2(a1Πg) and the formation of metastable N2(a'1Σu-), Einstein A coefficients, oscillator strengths and absolute band strengths for the N2 second positive and N2+ first negative systems, Sheng, D.T. ; Murnaghan, J.T., An inverse predissociation in molecular nitrogen, Etude de certains systemes de simplets de la molecule d'azote, [all data], Comes and Weber, 1969 Ogawa, M., [all data], Carter and Berkowitz, 1973 [all data], Tilford, Vanderslice, et al., 1979 Z. The lines of absorption bands with v'= 0,2,3,4 are broadened Z. Miller, R.E., [all data], Rajan, 1974 J. Quant. J. Chem. Lxcat Plasma Data Exchange Project.[Online]. ; Ogawa, M., 56 25 J. Mol. J. Chem. London A, 1944, 182, 286. [all data], Lofthus and Mulliken, 1957 Photoionization of vibrationally excited nitrogen, Freund, R.S., Res., 1973, 78, 1663. Chem. The state causing the predissociation is probably C', From Rydberg series having a" as lower state, First thought to be observed as quadrupole absorption, Resonance-like electron impact excitation function centered 0000003184 00000 n Proc. Astrophys. Absorption spectrum of nitrogen in the region from 1075 to 1650 A, [all data], Stoicheff, 1954 J. Mol. Nakamura, M.; Sasanuma, M.; Sato, S.; Watanabe, M.; Yamashita, H.; Iguchi, Y.; Ejiri, A.; Nakai, S.; Yamaguchi, S.; Sagawa, T.; Nakai, Y.; Oshio, T., [all data], Bleekrode, 1968 J. Chem. Mol. Pure Appl. Soc. [all data], Codling, 1966 Cook, G.R. [all data], Carroll and Yoshino, 1972 Phys., 1968, 48, 6, 2518, [all data], Carter, 1972 Z. Worley, R.E. Nicholls, R.W., ; Bobrowicz, F.W., [all data], Yoshino, Tanaka, et al., 1975 J. Chem. 14,15 14. Opt. <<8D498202E26CB04F89E95BB4B2B958E4>]>> [all data], Tilford and Wilkinson, 1964, 2 ; Tilford, S.G., [all data], Gero, 1935 [all data], Janin and Crozet, 1946 ; Franklin, V.B. Astron. [all data], Becker, Fink, et al., 1972 11505015). Evidence for the 3Δu → B3Πg transition in N2, Soc., 1968, 90, 3104. © 2018 by the U.S. Secretary of Commerce Lett., 1967, 19, 1219. Jpn., 1941, 23, 834. Spectrosc. Lassettre, E.N. Band structures in N2 Rydberg complexes, J. Chem. Phys., 1965, 43, 751. Can. Induced fundamental infrared band of nitrogen dissolved in solid argon, J. Chem. Lofthus, A.; Mulliken, R.S., Phys., 1975, 63, 1643. Phys., 1972, 56, 1388. Franck-Condon factors & r-centroids for the H3φu-G3Δg (Gaydon-Herman) green band system of N2, I. V. Adamovich, S. O. Macheret, J. W. Rich, and C. E. Treanor, “, Vibrational energy transfer rates using a forced harmonic oscillator model, Dynamical theory of vibrational state population distribution in electronic-to-vibrational energy transfer. Pol. The identification of molecular spectra, Third Edition, Pub. Astrophys., 1966, J.143, 552.