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Feshbach resonances in the F + H2O → HF + OH reaction

Xiaoren Zhang, Lulu Li, Jun Chen, Shu Liu, Dong H. Zhang

2020Nature Communications33 citationsDOIOpen Access PDF

Abstract

Abstract Transiently trapped quantum states along the reaction coordinate in the transition-state region of a chemical reaction are normally called Feshbach resonances or dynamical resonances. Feshbach resonances trapped in the HF–OH interaction well have been discovered in an earlier photodetchment study of FH 2 O − ; however, it is not clear whether these resonances are accessible by the F + H 2 O reaction. Here we report an accurate state-to-state quantum dynamics study of the F + H 2 O → HF + OH reaction on an accurate newly constructed potential energy surface. Pronounced oscillatory structures are observed in the total reaction probabilities, in particular at collision energies below 0.2 eV. Detailed analysis reveals that these oscillating structures originate from the Feshbach resonance states trapped in the hydrogen bond well on the HF( v ′ = 2)-OH vibrationally adiabatic potentials, producing mainly HF( v ′ = 1) product. Therefore, the resonances observed in the photodetchment study of FH 2 O − are accessible to the reaction.

Topics & Concepts

Feshbach resonanceAtomic physicsResonance (particle physics)Potential energy surfaceAdiabatic processPhysicsQuantumChemistryReaction dynamicsMoleculeQuantum mechanicsAdvanced Chemical Physics StudiesAtmospheric Ozone and ClimateSpectroscopy and Laser Applications
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