Breakdown curves of CH 2 (+), CH 3 (+), and CH 4 (+) molecules

T. IdBarkach; M. Chabot; K. Béroff; S. Della Negra; J. Lesrel; F. Geslin; A. Le Padellec; T. Mahajan; S. Díaz-Tendero

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Breakdown curves of CH ₂ (+), CH ₃ (+), and CH ₄ (+) molecules

机译：CH _{2 （+），CH _{3 （+）和CH _{4 （+）分子}}}

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Aims. The aim of this work is to furnish branching ratios (BRs) to the kinetic databases used in astrochemistry such as the KInetic Database for Astrochemistry (KIDA). This concerns CH_( y )~((+))species ( y = 2–4) excited by cosmic rays, electrons and photons, or the intermediate excited complexes CH_( y )~((+))resulting from a chemical reaction. Methods. The full set of fragmentation branching ratios following CH_( y )~((+))( y = 2,4) of constant velocity (250 keV uma~(?1)) colliding with He atoms has been measured with the multidetector AGAT. Kinetic energy distributions of neutral fragments produced in each dissociation channel have been also measured. With these experimental inputs, and theoretical dissociation energies, semiempirical breakdown curves (BDCs) have been constructed. Results. Prediction of BRs with the present BDCs is found to agree with available BR measurements for electronic dissociative recombination, collision with fast electron and photodissociation. Dependence of BRs with the various UV fields relevant to interstellar medium and planetary atmospheres is predicted.

机译：目的这项工作的目的是为天体化学动力学数据库（KIDA）提供天文化学动力学数据库的支化比率（BRs）。这涉及由宇宙射线，电子和光子激发的CH_（y）〜（（+））种类（y = 2–4），或化学反应产生的中间激发的配合物CH_（y）〜（（+））。方法。用多探测器AGAT测量了恒速（250 keV uma〜（？1））CH_（y）〜（（+））（y = 2,4）与He原子碰撞后的全部断裂分支比。还测量了在每个解离通道中产生的中性片段的动能分布。利用这些实验输入和理论解离能，已经建立了半经验击穿曲线（BDC）。结果。发现目前的BDC对BR的预测与可用于电子离解重组，与快速电子碰撞和光解离的BR测量值一致。预测了BR与星际介质和行星大气相关的各种紫外线场的依赖性。

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《Astronomy and astrophysics》 |2019年第8期|共15页
作者
T. IdBarkach; M. Chabot; K. Béroff; S. Della Negra; J. Lesrel; F. Geslin; A. Le Padellec; T. Mahajan; S. Díaz-Tendero;
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中图分类天文学;
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astrochemistryISM: moleculesmolecular processes;

机译：天体化学ISM：分子分子过程;
入库时间 2022-08-18 18:18:49

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机译：CH _{2 （+），CH _{3 （+）和CH _{4 （+）分子}}}
2. Breakdown curves of CH ₂ (+), CH ₃ (+), and CH ₄ (+) molecules [J] . M. Chabot, T. IdBarkach, K. Béroff, Astronomy and astrophysics . 2020,第7期

机译：CH _{2 （+），ch _{3 （+），和ch _{4 （+）分子}}}
3. Breakdown curves of CH ₂ (+), CH ₃ (+), and CH ₄ (+) molecules [J] . T. IdBarkach, M. Chabot, K. Béroff, Astronomy and astrophysics . 2019,第8期

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机译：CH2（+），CH3（+）和CH4（+）分子的击穿曲线

Breakdown curves of CH 2 (+), CH 3 (+), and CH 4 (+) molecules

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Breakdown curves of CH ₂ (+), CH ₃ (+), and CH ₄ (+) molecules