团簇光电离中母体-碎片关系的相关性

arXiv - PHYS - Atomic and Molecular Clusters Pub Date : 2024-02-13 DOI:arxiv-2402.08398

Jong Chan Lee, Begüm Rukiye Özer, In Heo, Thomas Schultz

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摘要

普通质谱中的碎片信号没有标签来识别其母分子。通过将质量信号与旋转拉曼光谱相关联，我们创建了一种方法，用中性母分子的光谱指纹来标记每个离子信号。在二硫化碳分子簇束的数据中，我们根据其质量相关的旋转指纹分配了 28 个不同的电离和碎片通道。意想不到的观察结果包括 CS2 二聚体形成的高能 S2 和 SCCS 阳离子碎片，以及与二聚体无关的重要 CS3 信号。观察到的大量通道揭示了令人惊讶的复杂性，而这种复杂性只能通过相关光谱和计算机辅助相关分析来解决。

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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Correlating parent-fragment relationships in cluster photoionization

Fragment signals in ordinary mass spectra carry no label to identify their parent molecule. By correlating mass signals with rotational Raman spectra, we created a method to label each ion signal with the spectroscopic fingerprint of its neutral parent molecule. In data for a carbon disulfide molecular cluster beam, we assigned 28 distinct ionization and fragmentation channels based on their mass-correlated rotational fingerprints. Unexpected observations included the formation of energetic S2 and SCCS cationic fragments from the CS2-dimer cluster and a significant CS3 signal, uncorrelated to the dimer. The large number of observed channels revealed a surprising complexity that could only be addressed with correlated spectroscopy and computer-aided correlation analysis.

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arXiv - PHYS - Atomic and Molecular Clusters

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