冷 Ne(P)+Ar 化学电离中量子态控制的通道分支。

Quantum-state-controlled channel branching in cold Ne(P)+Ar chemi-ionization.

机构信息

Institute for Chemical Sciences and Engineering, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.

Chemical Physics Theory Group, Department of Chemistry, and Center for Quantum Information and Quantum Control, University of Toronto, Toronto, ON, Canada.

出版信息

Nat Chem. 2018 Dec;10(12):1190-1195. doi: 10.1038/s41557-018-0152-2. Epub 2018 Oct 8.

DOI:10.1038/s41557-018-0152-2

PMID:30297754

Abstract

A prerequisite to gain a complete understanding of the most basic aspects of chemical reactions is the ability to perform experiments with complete control over the reactant degrees of freedom. By controlling these, details of a reaction mechanism can be investigated and ultimately manipulated. Here, we present a study of chemi-ionization-a fundamental energy-transfer reaction-under completely controlled conditions. The collision energy of the reagents was tuned from 0.02 K to 1,000 K, with the orientation of the excited Ne atom relative to Ar fully specified by an external magnetic field. Chemi-ionization of Ne(P) and Ar in these conditions enables a detailed investigation of how the reaction proceeds, and provides us with a means to control the branching ratio between the two possible reaction outcomes. The merged-beam experimental technique used here allows access to a low-energy regime in which the atoms dynamically reorient into a favourable configuration for reaction, irrespective of their initial orientations.

摘要

要完全理解化学反应最基本的方面，首先需要能够对反应物的自由度进行完全控制的实验。通过控制这些自由度，可以研究反应机制的细节，并最终对其进行操纵。在这里，我们研究了在完全受控条件下的化学离子化——一种基本的能量转移反应。通过外部磁场完全指定激发氖原子相对于氩的取向，将试剂的碰撞能从 0.02 K 调谐到 1000 K。在这些条件下，Ne(P)和 Ar 的化学离子化能够详细研究反应的进行过程，并为我们提供了控制两种可能反应产物之间分支比的手段。这里使用的合并束实验技术允许进入一个低能区，在这个区域中，原子会动态地重新定向到有利于反应的配置，而与它们的初始取向无关。

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冷 Ne(P)+Ar 化学电离中量子态控制的通道分支。

Quantum-state-controlled channel branching in cold Ne(P)+Ar chemi-ionization.

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