Chenghao Zhang scite author profile

Chenghao Zhang

2Publications

6Citation Statements Received

0Citation Statements Given

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University of Illinois Urbana-Champaign

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A phase diagram for energy flow-limited reactivity

Zhang

Sibert

Gruebele

2021

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Intramolecular energy flow (also known as intramolecular vibrational redistribution or IVR) is often assumed in Rice–Ramsperger–Kassel–Marcus, transition state, collisional energy transfer, and other rate calculations not to be an impediment to reaction. In contrast, experimental spectroscopy, computational results, and models based on Anderson localization have shown that ergodicity is achieved rather slowly during molecular energy flow. The statistical assumption in rate theories might easily fail due to quantum localization. Here, we develop a simple model for the interplay of IVR and energy transfer and simulate the model with near-exact quantum dynamics for a 10-degree of freedom system composed of two five-mode molecular fragments. The calculations are facilitated by applying the van Vleck transformation to local random matrix models of the vibrational Hamiltonian. We find that there is a rather sharp “phase transition” as a function of molecular anharmonicity “ a” between a region of facile energy transfer and a region limited by IVR and incomplete accessibility of the state space (classically, the phase space). The very narrow transition range of the order parameter a happens to lie right in the middle of the range expected for molecular torsion, bending, and stretching vibrations, thus demonstrating that reactive energy transfer dynamics several k B T above the thermal energy occurs not far from the localization boundary, with implications for controllability of reactions.

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Quantum information scrambling in molecules

2022

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Chenghao Zhang

A phase diagram for energy flow-limited reactivity

Quantum information scrambling in molecules

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