Chang Luo scite author profile

Theory has established the importance of geometric phase (GP) effects in the adiabatic dynamics of molecular systems with a conical intersection connecting the ground- and excited-state potential energy surfaces, but direct observation of their manifestation in chemical reactions remains a major challenge. Here, we report a high-resolution crossed molecular beams study of the H + HD → H2+ D reaction at a collision energy slightly above the conical intersection. Velocity map ion imaging revealed fast angular oscillations in product quantum state–resolved differential cross sections in the forward scattering direction for H2products at specific rovibrational levels. The experimental results agree with adiabatic quantum dynamical calculations only when the GP effect is included.

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Direct observation of forward-scattering oscillations in the H+HD→H2+D reaction

Yuan

Chen

et al. 2018

Nature Chem

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Accurate measurements of product state-resolved angular distributions are central to fundamental studies of chemical reaction dynamics. Yet, fine quantum-mechanical structures in product angular distributions of a reactive scattering process, such as the fast oscillations in the forward-scattering direction, have never been observed experimentally and the nature of these oscillations has not been fully explored. Here we report the crossed-molecular-beam experimental observation of these fast forward-scattering oscillations in the product angular distribution of the benchmark chemical reaction, H + HD → H + D. Clear oscillatory structures are observed for the H(v' = 0, j' = 1, 3) product states at a collision energy of 1.35 eV, in excellent agreement with the quantum-mechanical dynamics calculations. Our analysis reveals that the oscillatory forward-scattering components are mainly contributed by the total angular momentum J around 28. The partial waves and impact parameters responsible for the forward scatterings are also determined from these observed oscillations, providing crucial dynamics information on the transient reaction process.

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Observation of the geometric phase effect in the H+HD→H2+D reaction below the conical intersection

et al. 2020

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It has long been known that there is a conical intersection (CI) between the ground and first excited electronic state in the H 3 system. Its associated geometric phase (GP) effect has been theoretically predicted to exist below the CI since a long time. However, the experimental evidence has not been established yet and its dynamical origin is waiting to be elucidated. Here we report a combined crossed molecular beam and quantum reactive scattering dynamics study of the H+HD → H 2 +D reaction at 2.28 eV, which is well below the CI. The GP effect is clearly identified by the observation of distinct oscillations in the differential cross section around the forward direction. Quantum dynamics theory reveals that the GP effect arises from the phase alteration of a small part of the wave function, which corresponds to an unusual roaming-like abstraction pathway, as revealed by quasi-classical trajectory calculations.

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Chang Luo

Observation of the geometric phase effect in the H + HD → H ₂ + D reaction

Direct observation of forward-scattering oscillations in the H+HD→H2+D reaction

Observation of the geometric phase effect in the H+HD→H2+D reaction below the conical intersection

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Chang Luo

Observation of the geometric phase effect in the H + HD → H 2 + D reaction

Direct observation of forward-scattering oscillations in the H+HD→H2+D reaction

Observation of the geometric phase effect in the H+HD→H2+D reaction below the conical intersection

Contact Info

Product

Resources

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Observation of the geometric phase effect in the H + HD → H ₂ + D reaction