Roaming and chaotic behaviors in collisional and photo-initiated molecular-beam reactions: a role of classical vs. quantum nonadiabatic dynamics

A new reaction scheme is proposed to account for roaming and chaotic behaviors in collisional and photo-initiated molecular-beam reactions, where nonadiabatic dynamics plays a key role and the collapse of superposition of wave functions is considered to be important in the beginning of the present s...

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Veröffentlicht in:	Atti della Accademia nazionale dei Lincei. Rendiconti Lincei. Scienze fisiche e naturali 2018-06, Vol.29 (2), p.219-232
Hauptverfasser:	Kasai, Toshio, Che, Dock-Chil, Tsai, Po-Yu, Nakamura, Masaaki, Muthiah, Balaganesh, Lin, King-Chuen
Format:	Artikel
Sprache:	eng
Schlagworte:	Biomedicine Chemical speciation Complex systems Curvature Dynamics Earth and Environmental Science Earth Sciences Environment History of Science Life Sciences Methyl formate Molecular chains Molecular orbitals Organic chemistry Reagents Spatial distribution Steric effects Superposition (mathematics) The Quantum World of Molecules Three dimensional models Trajectories Wave functions
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container_title	Atti della Accademia nazionale dei Lincei. Rendiconti Lincei. Scienze fisiche e naturali
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creator	Kasai, Toshio Che, Dock-Chil Tsai, Po-Yu Nakamura, Masaaki Muthiah, Balaganesh Lin, King-Chuen
description	A new reaction scheme is proposed to account for roaming and chaotic behaviors in collisional and photo-initiated molecular-beam reactions, where nonadiabatic dynamics plays a key role and the collapse of superposition of wave functions is considered to be important in the beginning of the present scheme. Since the feature of molecular orbitals of reagents is crucial in reaction, we showed how to map out the spatial distribution of the relevant HOMO molecular orbitals of CH 3 Cl in the impact of fast electrons. We identified by experiment that the multiple overlap of nearby molecular orbitals affects even the vibrational motion of adjacent molecule DCl of the transient [ClDCl] chemical species. We also showed dynamical steric effects in the HBr + OH four-atom reaction as a manifestation of the nonadiabatic dynamics in complex systems. The roaming mechanism in the photo-initiated reaction of methyl formate is clarified in detail by experiment as well as the QCT trajectory calculation, where the conical intersection region plays an essential role. We suggest that two types of roaming trajectories coexist, i.e., deterministic and chaotic roaming trajectories based on classical trajectory calculations. To clarify the nonadiabatic dynamics in the roaming mechanism for non-collinear three-dimensional (3D) collisions, a new model of the 3D Polanyi rule is proposed as the extension of the well-established 2D Polanyi rule. In the 3D Polanyi rule, it is expected that the curvature and torsion of Frenet–Serret formulas in three-dimensional space would provide us key concepts in understanding reaction dynamics.
doi_str_mv	10.1007/s12210-018-0709-4
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The roaming mechanism in the photo-initiated reaction of methyl formate is clarified in detail by experiment as well as the QCT trajectory calculation, where the conical intersection region plays an essential role. We suggest that two types of roaming trajectories coexist, i.e., deterministic and chaotic roaming trajectories based on classical trajectory calculations. To clarify the nonadiabatic dynamics in the roaming mechanism for non-collinear three-dimensional (3D) collisions, a new model of the 3D Polanyi rule is proposed as the extension of the well-established 2D Polanyi rule. 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subjects	Biomedicine Chemical speciation Complex systems Curvature Dynamics Earth and Environmental Science Earth Sciences Environment History of Science Life Sciences Methyl formate Molecular chains Molecular orbitals Organic chemistry Reagents Spatial distribution Steric effects Superposition (mathematics) The Quantum World of Molecules Three dimensional models Trajectories Wave functions
title	Roaming and chaotic behaviors in collisional and photo-initiated molecular-beam reactions: a role of classical vs. quantum nonadiabatic dynamics
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