揭示热能化学反应的超快动力学

arXiv - PHYS - Atomic and Molecular Clusters Pub Date : 2023-08-18 DOI:arxiv-2308.09602

Matthew S. Robinson, Jochen Küpper

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引用次数: 0

摘要

从这个角度来看，我们讨论如何在技术进步和科学洞察力的基础上启动，成像和解开热能化学动力学的超快基本步骤。我们提出，超短中红外激光脉冲的组合，控制分子物种在气相，和前沿成像技术允许解开实时的一般化学反应过程的基本步骤。我们详细介绍了原型第一反应系统的实验方法，使这些研究，如何充分准备和促进气相样品与当代超短中红外激光系统的热能反应状态，以及如何成像启动的超快化学动力学。这些实验的结果将进一步加深我们对一般化学反应动力学的理解。

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Unraveling the ultrafast dynamics of thermal-energy chemical reactions

In this perspective, we discuss how one can initiate, image, and disentangle the ultrafast elementary steps of thermal-energy chemical dynamics, building upon advances in technology and scientific insight. We propose that combinations of ultrashort mid-infrared laser pulses, controlled molecular species in the gas phase, and forefront imaging techniques allow to unravel the elementary steps of general-chemistry reaction processes in real time. We detail, for prototypical first reaction systems, experimental methods enabling these investigations, how to sufficiently prepare and promote gas-phase samples to thermal-energy reactive states with contemporary ultrashort mid-infrared laser systems, and how to image the initiated ultrafast chemical dynamics. The results of such experiments will clearly further our understanding of general-chemistry reaction dynamics.

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arXiv - PHYS - Atomic and Molecular Clusters

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