Quantum Dynamics of Rotational Transitions in CN (X2Σ+) by H+ Collisions

Quantum Dynamics of Rotational Transitions in CN (X2Σ+) by H+ Collisions

Collisional cross-sections of inelastic rotational excitations of CN in its ground electronic state (X2Σ+) by H+ scattering are studied by the exact quantum mechanical close-coupling (CC) method at very low collision energies (0–600 cm−1) relevant to interstellar atmospheres. Ab initio rigid rotor p...

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Autores principales: Bhargava Anusuri, T. J. Dhilip Kumar, Sanjay Kumar
Formato: article
Lenguaje:EN
Publicado: Frontiers Media S.A. 2021
Materias:
Proton-CN
collisions
quantum calculations
rotational excitations
cross sections
interstellar medium
Chemistry
QD1-999
Acceso en línea:https://doaj.org/article/0098ea19f0f944ada26dac2d5df8a255
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Sumario:Collisional cross-sections of inelastic rotational excitations of CN in its ground electronic state (X2Σ+) by H+ scattering are studied by the exact quantum mechanical close-coupling (CC) method at very low collision energies (0–600 cm−1) relevant to interstellar atmospheres. Ab initio rigid rotor potential energy surface computed at MRCI/cc-pVTZ level of accuracy has been employed. Rate coefficients for the rotational excitations have also been calculated. The obtained results are compared with previous theoretical calculations and analyzed whether proton collisions could be significant sources for rotationally excited CN as a possible source for cosmic microwave background of about 3 K from the interstellar media.

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