التفاصيل البيبلوغرافية
| العنوان: |
A MASH simulation of the photoexcited dynamics of cyclobutanone. |
| المؤلفون: |
Lawrence, Joseph E., Ansari, Imaad M., Mannouch, Jonathan R., Manae, Meghna A., Asnaashari, Kasra, Kelly, Aaron, Richardson, Jeremy O. |
| المصدر: |
Journal of Chemical Physics; 5/7/2024, Vol. 160 Issue 17, p1-14, 14p |
| مصطلحات موضوعية: |
PHOTODISSOCIATION, DOMINATING set, ELECTRONIC systems, PHOTOEXCITATION, GENERALIZATION |
| مستخلص: |
In response to a community prediction challenge, we simulate the nonadiabatic dynamics of cyclobutanone using the mapping approach to surface hopping (MASH). We consider the first 500 fs of relaxation following photoexcitation to the S2 state and predict the corresponding time-resolved electron-diffraction signal that will be measured by the planned experiment. 397 ab initio trajectories were obtained on the fly with state-averaged complete active space self-consistent field using a (12,11) active space. To obtain an estimate of the potential systematic error, 198 of the trajectories were calculated using an aug-cc-pVDZ basis set and 199 with a 6-31+G* basis set. MASH is a recently proposed independent trajectory method for simulating nonadiabatic dynamics, originally derived for two-state problems. As there are three relevant electronic states in this system, we used a newly developed multi-state generalization of MASH for the simulation: the uncoupled spheres multi-state MASH method (unSMASH). This study, therefore, serves both as an investigation of the photodissociation dynamics of cyclobutanone, and also as a demonstration of the applicability of unSMASH to ab initio simulations. In line with previous experimental studies, we observe that the simulated dynamics is dominated by three sets of dissociation products, C3H6 + CO, C2H4 + C2H2O, and C2H4 + CH2 + CO, and we interpret our predicted electron-diffraction signal in terms of the key features of the associated dissociation pathways. [ABSTRACT FROM AUTHOR] |
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| قاعدة البيانات: |
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