离解(化学)
分子
分子动力学
化学物理
材料科学
物理
动力学(音乐)
分子物理学
化学
反应动力学
原子物理学
分子光谱学
作者
Dong Liu,Chenkai Zhang,Xintai Hao,Xiaorui Xue,Maomao Gong,Songbin Zhang,Jiaqi Zhou,Chuncai Kong,Zhimao Yang,Xueguang Ren,Tao Yang
摘要
Understanding the dissociation of multiply charged molecules is crucial yet challenging due to complex multibody correlations and nonadiabatic dynamics. Conventional ab initio molecular dynamics simulations commonly struggle to capture excited electronic states and intricate electron-nuclear coupling, particularly in distinguishing sequential and nonsequential dissociation pathways. To address these limitations, we present a combined theoretical and experimental study on the dissociation mechanisms of CO_{2}^{3+}. Our approach employs on-the-fly nonadiabatic molecular dynamics simulations, utilizing Dalitz plots and Newton diagrams to differentiate dissociation channels. The simulations reproduce the key dynamical signatures observed via a COLTRIMS reaction microscope, enabling the state-resolved disentanglement of overlapping spectral features. This Letter provides mechanistic insights into the fragmentation dynamics, refining the interpretation of experimental data and offering an in-depth understanding of nonadiabatic molecular dynamics.
科研通智能强力驱动
Strongly Powered by AbleSci AI