Научный семинар лаборатории КФД

"Nonadiabatic Dynamics, Machine Learning and Time-Resolved Pump-Probe Spectra", Zhenggang Lan, School of Environment, South China Normal University, Guangzhou, China.

Ведущие

Боченкова Анастастия Владимировна
доцент, к.ф.-м.н., зав. НИЛ квантовой фотодинамики

Начало

09 Июл 2024 - 14:00

Конец

09 Июл 2024 - 15:30

Где

к. Ц65

Категории

Научные семинары

Во вторник 09 июля в 14.00 (МСК) в смешанном очно-дистанционном формате состоится научный семинар лаборатории КФД.

Nonadiabatic Dynamics, Machine Learning and Time-Resolved Pump-Probe Spectra
Zhenggang Lan
School of Environment, South China Normal University, Guangzhou 510006, China.

Abstract:
Nonadiabatic dynamics widely exist in photophysics, photochemistry and photobiology. We tried to develop theoretical approaches to study the photoinduced nonadiabatic dynamics. A few topics will be discussed. We combined the doorway-window representation of the nonlinear response theories and ab initio nonadiabatic dynamics to simulate the time-resolved pump-probe spectra, including both transient absorption spectra and time-resolved fluorescence spectra. Two interesting examples, including photoinduced energy transfer and photoisomerization, are discussed. We tried to combine a deep learning method and numerically accurate quantum dynamics approach to simulate the long-time quantum evolution of an open quantum system. This approach allows us to obtain the evolution of a reduced density matrix of an open quantum system with a low computational cost. It demonstrates that the deep learning approach is the important tool to speed up the long-time quantum evolution. The similar time-series analysis tool can also be used to propagate all nuclear and electronic degrees of freedom in the trajectory evolution of the SQC-MM dynamics. We showed the possibility to analyze the geometrical evolution of trajectory-based nonadiabatic molecular dynamics by the unsupervised machine learning and big data analysis, particularly the dimensionality reduction techniques. These approaches allow us to extract the major molecular motion from the very complicated time-dependent evolution from many trajectories without pre-knowledge of the reaction pathway of excited state reactions. This opens a very interesting research topic in the future.

Подключиться к конференции Zoom
https://us06web.zoom.us/j/86908592861?pwd=wFPyo8Se4H9Ldy3qUUTFZjn7hLKZBG.1Идентификатор конференции: 869 0859 2861
Код доступа: 678763

Место проведения семинара — к. Ц65.
Приглашаются все желающие!