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Infrared auroral emissions driven by resonant electron impact excitation of NO molecules

机译：由共振电子撞击激发NO分子驱动的红外极光发射

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摘要

Although only a minor constituent of the earth's upper atmosphere, nitric oxide (NO) plays a major role in infrared auroral emissions due to radiation from vibrationally excited (NO*) states. The main process leading to the production of these excited molecules was thought to be chemiluminescence, whereby excited nitrogen atoms interact with oxygen molecules to form vibrationally excited nitric oxide (NO*) and atomic oxygen. Here we show evidence that a different production mechanism for NO*, due to low energy electron impact excitation of NO molecules, is responsible for more than 30% of the NO auroral emission near 5 μm.

机译：尽管仅是地球高层大气的一小部分，但一氧化氮（NO）由于来自振动激发（NO *）状态的辐射而在红外极光排放中起主要作用。导致产生这些激发分子的主要过程被认为是化学发光，激发的氮原子与氧分子相互作用形成振动激发的一氧化氮（NO *）和原子氧。在这里，我们显示证据表明，由于NO分子的低能电子碰撞激发，NO *的另一种产生机理导致了5μm附近NO极光发射的30％以上。

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Campbell, Laurence; Brunger, Michael J.; Petrovic, Z. L.; Jelisavcic, M.; Panajotovic, R.; Buckman, Stephen J.;
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1. Electron-driven excitation of O_2 under night-time auroral conditions: Excited state densities and band emissions [J] . D.B. Jones, L. Campbell, M.J. Bottema, Planetary and space science . 2006,第1期

机译：夜间极光条件下电子驱动的O_2激发：激发态密度和能带发射
2. Two Components of the Total Ionization Cross Sections of Atoms and Molecules by Electron Impact: Resonant Excitation and Decay of the Fermi Electron-Hole System and the Dipole Electron Transition from a Bound to a Free State at a Binary Collision [J] . D. I. Vaisburd, K. E. Evdokimov Russian physics journal . 2003,第11期

机译：通过电子碰撞，原子和分子的总电离截面的两个组成部分：费米电子-孔系统的共振激发和衰减以及二元碰撞中偶极电子从束缚态到自由态的跃迁
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4. Optical Emission Spectroscopy Study of Resonant Vibrational Excitation of Precursor Molecules in the CO_2 Laser-assisted Flame Deposition of Diamond [C] . T. Gebre, H. Ling, Y. X. Han, International Congress on Applications of Lasers Electro-Optics . 2008

机译：金刚石CO_2激光辅助火焰沉积中前体分子共振振动激发的光发射光谱研究
5. Electron Impact Excitation-Ionization of Molecules. [D] . Ali, Esam Abobakr A. 2017

机译：分子的电子碰撞激发电离。
6. Resonant secondary light emission from plasmonic Au nanostructures at high electron temperatures created by pulsed-laser excitation [O] . Jingyu Huang, Wei Wang, Catherine J. Murphy, 2014

机译：脉冲激光激发在高电子温度下从等离子体Au纳米结构产生的共振二次光发射
7. Infrared Auroral Emissions Driven by Resonantud Electron Impact Excitation of NO molecules [O] . Campbell Laurence, Brunger Michael James, Buckman Stephen J, 2004

机译：共振 ud驱动的红外极光发射 NO分子的电子冲击激发
8. Excitation of Infrared Auroral Emissions in Collisions of H(+) and H with N2. [R] . birely,john h. johnson,peter a. 1974

机译：H（+）和H与N2碰撞时红外极光辐射的激发。

Infrared auroral emissions driven by resonant electron impact excitation of NO molecules

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