An Auroral Enhancement of O2λ1.27-μm Emission
暂无分享,去创建一个
[1] R. D. Sears,et al. Auroral energy input from energetic electrons and Joule heating at Chatanika , 1975 .
[2] A. V. Jones. A Model for the Excitation of Electron Aurora and Some Applications , 1975 .
[3] R. Hall,et al. Scattering of 4.5 eV electrons by ground (X3 Σg-) state and metastable (a1Δ g) oxygen molecules , 1975 .
[4] P. Wraight,et al. Atmospheric transmission of the 1.27 micron band of oxygen , 1975 .
[5] B. Myers,et al. Electron energy degradation in the atmosphere: consequent species and energy densities, electron-flux, and radiation spectra. Topical report, 7 Jan--7 Sep 1974. [14 to 900 eV] , 1975 .
[6] D. Luckey,et al. Auroral electron energy derived from ratio of spectroscopic emissions 1. Model computations , 1974 .
[7] W. Swider. Chemical excitation of O2(¹Δ g ) in auroras , 1974 .
[8] R. H. Bishop,et al. Infrared processes in the auroral zone , 1974 .
[9] A. V. Jones,et al. Observation and interpretation of O2 1.27‐μ emission enhancements in aurora , 1973 .
[10] A. Brekke,et al. A preliminary study of the neutral wind in the auroral E region , 1973 .
[11] A. Vallance Jones,et al. The infrared spectrum of the airglow , 1973 .
[12] M. Rees,et al. Time dependent studies of the aurora—II. Spectroscopic morphology , 1973 .
[13] R. Leadabrand,et al. Chatanika, Alaska, Auroral‐Zone Incoherent‐Scatter Facility , 1972 .
[14] A. Dalgarno,et al. The absorption of electrons in atomic oxygen , 1971 .
[15] A. Broadfoot,et al. Excitation of N2 and N+2 systems by electrons—I . Absolute transition probabilities , 1971 .
[16] W. Evans,et al. Comments on paper by L. R. Megill, A. M. Despain, D. J. Baker, and K. D. Baker, ‘Oxygen Atmospheric and infrared atmospheric bands in the aurora’ , 1971 .
[17] A. Despain,et al. Reply [to “Comments on paper by L. R. Megill, A. M. Despain, D. J. Baker, and K. D. Baker, ‘Oxygen atmospheric and infrared atmospheric bands in the aurora’”] , 1971 .
[18] M. Bortner,et al. Internal energy balance and energy transfer in the lower thermosphere. , 1971, Applied optics.
[19] A. Despain,et al. Extended-field large-aperture interferometer-spectrometer for airglow surveys. , 1971, Applied optics.
[20] D. Snelling,et al. Collisional Deactivation of O2(1?g) , 1971 .
[21] L. Jacchia. Revised static models of the thermosphere and exosphere with empirical temperature profiles , 1971 .
[22] A. Broadfoot,et al. Excitation of N2 and N2/+/ band systems by electrons. 1 - Absolute transition probabilities , 1970 .
[23] A. Despain,et al. OXYGEN ATMOSPHERIC AND INFRARED ATMOSPHERIC BANDS IN THE AURORA. , 1970 .
[24] L. Megill,et al. Accidental rocket observation of O2(¹Δ g ) in an aurora , 1970 .
[25] JAMES C. G. Walker,et al. Electric field excitation of O2(1Δg) in auroras , 1970 .
[26] W. Evans,et al. Ground-based photometric observations of the 1·27 μ band of O2 in the twilight airglow , 1970 .
[27] J. Noxon. Auroral emission from O2(¹Δ g ) , 1970 .
[28] R. Wayne,et al. The reaction of O2(1Δg) with atomic nitrogen and with atomic oxygen , 1969 .
[29] R. Wayne,et al. The collisional deactivation of O2(1Δg) , 1969 .
[30] Richard M. Badger,et al. Absolute Intensities of the Discrete and Continuous Absorption Bands of Oxygen Gas at 1.26 and 1.065 μ and the Radiative Lifetime of the 1Δg State of Oxygen , 1965 .
[31] 脇谷 一義. Differential and integral cross sections for the electron impact excitation of O2 , 1979 .
[32] Doran J. Baker,et al. Chapter 2 – Field-Widened Interferometers for Fourier Spectroscopy , 1977 .
[33] V. Wickwar. Chatanika Radar Measurements , 1975 .
[34] G. Kockarts. NEUTRAL ATMOSPHERE MODELING , 1975 .
[35] M. Rees. Processes and Emissions Associated with Electron Precipitation , 1975 .
[36] R. H. Bishop,et al. Rocket measurements of O2(¹Δ g) emissions in the auroral zone , 1974 .
[37] E. R. Huppi,et al. Infrared Investigations of Aurora and Airglow , 1971 .
[38] F. Linder,et al. Experimental Study of Low Energy e-O2 Collision Processes , 1971 .
[39] L. R. Peterson. Discrete Deposition of Energy by Electrons in Gases , 1969 .