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Observation of geometric phase effect through backward angular oscillations in the H + HD → H2 + D reaction

Shihao Li, Jiayu Huang, Zhibing Lu, Yiyang Shu, Wentao Chen, Dao-Fu Yuan, Tao Wang, Bina Fu, Zhaojun Zhang, Xingan Wang, Dong H. Zhang, Xueming Yang

2024Nature Communications14 citationsDOIOpen Access PDF

Abstract

Abstract Quantum interference between reaction pathways around a conical intersection (CI) is an ultrasensitive probe of detailed chemical reaction dynamics. Yet, for the hydrogen exchange reaction, the difference between contributions of the two reaction pathways increases substantially as the energy decreases, making the experimental observation of interference features at low energy exceedingly challenging. We report in this paper a combined experimental and theoretical study on the H + HD → H 2 + D reaction at the collision energy of 1.72 eV. Although the roaming insertion pathway constitutes only a small fraction (0.088%) of the overall contribution, angular oscillatory patterns arising from the interference of reaction pathways were clearly observed in the backward scattering direction, providing direct evidence of the geometric phase effect at an energy of 0.81 eV below the CI. Furthermore, theoretical analysis reveals that the backward interference patterns are mainly contributed by two distinct groups of partial waves ( J ~ 10 and J ~ 19). The well-separated partial waves and the geometric phase collectively influence the quantum reaction dynamics.

Topics & Concepts

Conical intersectionInterference (communication)PhysicsGeometric phaseReaction dynamicsPhase (matter)Potential energy surfaceAtomic physicsScatteringIntersection (aeronautics)QuantumMolecular physicsPotential energyQuantum mechanicsComputer scienceAb initioComputer networkAerospace engineeringChannel (broadcasting)MoleculeEngineeringSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesQuantum, superfluid, helium dynamics
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