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Rate constants for the H+ + H2 reaction from 5 K to 3000 K with a statistical quantum method

Tomás González‐Lezana, P. Hily-Blant, Alexandre Faure

2021The Journal of Chemical Physics17 citationsDOIOpen Access PDF

Abstract

An exhaustive investigation of state-to-state H+ + H2(v, j) → H+ + H2(v′, j′) transitions for rovibrational levels of molecular hydrogen below 1.3 eV from the bottom of the H2 well is carried out by means of a statistical quantum method, which assumes the complex-forming nature of the process. Integral cross sections for transitions involving states H2(v = 0, j = 0–12), H2(v = 1, j = 0–8), and H2(v = 2, j = 0–3) are obtained for collision energies within a range of Emin = 10−5 eV and Emax = 2 eV. Rate constants are then calculated between T = 5 K and 3000 K, and they are compared, when possible, with previous values reported in the literature. As a first application, the cooling rate coefficient of H2 excited by protons is determined and compared with a recent estimate.

Topics & Concepts

Rotational–vibrational spectroscopyAtomic physicsExcited stateReaction rate constantQuantum numberRange (aeronautics)QuantumState (computer science)Hydrogen moleculeHydrogenChemistryPhysicsQuantum mechanicsKineticsMathematicsMaterials scienceComposite materialAlgorithmAtmospheric Ozone and ClimateSpectroscopy and Laser ApplicationsAstrophysics and Star Formation Studies
Rate constants for the H+ + H2 reaction from 5 K to 3000 K with a statistical quantum method | Litcius