Formic Acid Ionization and Fragmentation by Multiphoton Absorption

Journal of Nuclear Physics, Material Sciences, Radiation and Applications Pub Date : 2021-02-10 DOI:10.15415/JNP.2021.82026

C. Cisneros, T. Bautista, C. F. Betancourt, E. Prieto, A. Guerrero, I. Álvarez

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引用次数: 1

Abstract

Multiphoton absorption is an intensity dependent nonlinear effect related to the excitation of virtual intermediate states. In the present work, multiphoton ionization and dissociation of the formic acid molecule (HCOOH) by the interaction with photons from 532 Nd: YAG laser at different intensities are discussed, using different carrier gases. The induced fragmentation-ionization patterns show up to 17 fragments and dissociation channels are proposed. Some evidence of small clusters formation and conformational memory from the ratio of the detected products, CO+ and CO2+, on the light of the available results, it is possible to conclude that they arise from trans and cis formic acid. Our results are compared with those obtained in other laboratories under different experimental conditions, some of them show only partial agreement and differences are discussed. Following the Keldysh description it is possible, from our experimental parameters, characterize our results, in the multiphoton absorption regime.

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甲酸电离与多光子吸收碎裂

多光子吸收是一种与虚中间态激发有关的强度依赖的非线性效应。本文讨论了在不同载流子气体下，不同强度的532 Nd: YAG激光光子与甲酸分子(HCOOH)相互作用的多光子电离和解离。诱导的碎片-电离模式显示多达17个碎片和解离通道。一些小簇形成和构象记忆的证据来自于检测到的产物CO+和CO2+的比例，根据现有的结果，有可能得出结论，它们是由反式和顺式甲酸产生的。我们的结果与其他实验室在不同实验条件下得到的结果进行了比较，有些结果只显示部分一致，并讨论了差异。根据Keldysh的描述，从我们的实验参数可以在多光子吸收状态下描述我们的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Nuclear Physics, Material Sciences, Radiation and Applications

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