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Cited article:

HIGH-RESOLUTION ELECTRON-IMPACT EMISSION SPECTRA AND VIBRATIONAL EMISSION CROSS SECTIONS FROM 330–1100 nm FOR N2

Rao S. Mangina, Joseph M. Ajello, Robert A. West and Dariusz Dziczek
The Astrophysical Journal Supplement Series 196 (1) 13 (2011)
https://doi.org/10.1088/0067-0049/196/1/13

Rotational distributions of CO2+ (X̃ 2Πg) produced by electron-impact ionization of supercooled CO2

Atsushi Nakajima, Takashi Nagata, Tamotsu Kondow and Kozo Kuchitsu
Chemical Physics Letters 151 (6) 511 (1988)
https://doi.org/10.1016/S0009-2614(88)85028-0

Nascent rotational distributions of N+2(X 2Σ+g) produced by electron‐impact ionization of N2in a supersonic beam

Takashi Nagata, Atsushi Nakajima, Tamotsu Kondow and Kozo Kuchitsu
The Journal of Chemical Physics 87 (11) 6507 (1987)
https://doi.org/10.1063/1.453433

Effective Rotational Temperatures of N2+(X) Produced by Electron-Impact Ionization on N2

Hirofumi Kawazumi, Tuneaki Uchida and Teiichiro Ogawa
Bulletin of the Chemical Society of Japan 59 (3) 937 (1986)
https://doi.org/10.1246/bcsj.59.937

Laser-induced fluorescence of N2(X 1Σg+) and electron-impact excited N2+ (X 2Σg+) in a pulsed supersonic beam: Rotational distributions

H. Helvajian, Benjamin M. Dekoven and A.P. Baronavski
Chemical Physics 90 (1-2) 175 (1984)
https://doi.org/10.1016/0301-0104(84)85093-4

Electron beam diagnostics of nitrogen. Multiquantum rotational transitions during excitation

A. E. Belikov, A. E. Zarvin, N. V. Karelov, G. I. Sukhinin and R. G. Sharafutdinov
Journal of Applied Mechanics and Technical Physics 25 (3) 331 (1984)
https://doi.org/10.1007/BF00910389

A rocket measurement of thermospheric temperatures derived from molecular rotational intensity distributions in the aurora

A.J. Deans and G.G. Shepherd
Planetary and Space Science 31 (10) 1137 (1983)
https://doi.org/10.1016/0032-0633(83)90102-2

Electron impact ionization–excitation of CO in a supersonic beam

P. J. Dagdigian and J. P. Doering
The Journal of Chemical Physics 78 (4) 1846 (1983)
https://doi.org/10.1063/1.444981

Experimental verification of the breakdown of the electric dipole rotational selection rule in electron impact ionization–excitation of N2 

S. P. Hernandez, P. J. Dagdigian and J. P. Doering
The Journal of Chemical Physics 77 (12) 6021 (1982)
https://doi.org/10.1063/1.443845

N2 rotational energy distributions in cold, supersonic beams from electron excited fluorescence measurements of N+2

S.P. Hernandez, P.J. Dagdigian and J.P. Doering
Chemical Physics Letters 91 (5) 409 (1982)
https://doi.org/10.1016/0009-2614(82)83311-3

Rotational excitation in the electron impact ionization of supercooled N2

Benjamin M. DeKoven, Donald H. Levy, H. H. Harris, B. R. Zegarski and Terry A. Miller
The Journal of Chemical Physics 74 (10) 5659 (1981)
https://doi.org/10.1063/1.440929

Laser-induced fluorescence measurement of the nascent rotational distribution of N+2 (X2Σ+g) formed by electron impact on N2

J. Allison, T. Kondow and R.N. Zare
Chemical Physics Letters 64 (2) 202 (1979)
https://doi.org/10.1016/0009-2614(79)80495-9

The electron beam fluorescence method as applied to molecular scattering experiments

P. B. Scott, T. R. Mincer and E. P. Muntz
Review of Scientific Instruments 45 (2) 207 (1974)
https://doi.org/10.1063/1.1686589

Rotational Temperature of the N2+ First Negative System Excited by Low-Energy Electrons

John H. Moore and John P. Doering
The Journal of Chemical Physics 50 (3) 1487 (1969)
https://doi.org/10.1063/1.1671225