Influence of the active space on CASSCF nonadiabatic dynamics simulations

Szymczak J.J.; Barbatti M.; Lischka H.

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Influence of the active space on CASSCF nonadiabatic dynamics simulations

机译：活动空间对CASSCF非绝热动力学模拟的影响

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Nonadiabatic dynamics simulations are performed at four different extended ab initio CASSCF levels for 4-aminopyrimidine, which had been selected because of its structural relationship to DNA nucleobases, aiming at the assessment of the influence of the active space composition on the qualitative and quantitative dynamics predictions. Reaction pathways connecting the Franck-Condon region to the three main regions of the conical intersection seam were also computed at the same four levels and also using the CASPT2 method. The results show that the theoretical approach has significant influence on quantitative aspects of the dynamics. Nevertheless, relatively uniform qualitative predictions are obtained independently of the CAS level. A well-balanced treatment of lone-pair orbitals in the active space was shown to be a key factor for the reliability of the results.

机译：对4-氨基嘧啶在四个不同的从头开始的CASSCF水平进行了非绝热动力学模拟，这是由于其与DNA核碱基的结构关系而选择的，目的在于评估活性空间组成对定性和定量动力学预测的影响。还使用相同的四个级别并使用CASPT2方法来计算将Franck-Condon区连接到圆锥形相交接缝的三个主要区域的反应路径。结果表明，理论方法对动力学的定量方面具有重大影响。然而，独立于CAS水平获得了相对统一的定性预测。有效空间中孤对轨道的均衡处理被证明是结果可靠性的关键因素。

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《International Journal of Quantum Chemistry》 |2011年第13期|共9页
作者
Szymczak J.J.; Barbatti M.; Lischka H.;
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正文语种 eng
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关键词
active space; conical intersection; dynamics; excited states; reaction path;

机译：主动空间;圆锥形相交;动力学;激发态;反应路径;

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专利

1. Influence of the active space on CASSCF nonadiabatic dynamics simulations [J] . Szymczak J.J., Barbatti M., Lischka H. International Journal of Quantum Chemistry . 2011,第13期

机译：活动空间对CASSCF非绝热动力学模拟的影响
2. Nonadiabatic decay dynamics of phthalide from the light‐absorbing S ₃3 (ππ*) state‐resonance Raman spectroscopy and CASSCF study [J] . Wu Liuxia, Ouyang Bing, Zhao Yanying, Journal of Raman Spectroscopy: An International Journal for Original Work in All Aspects of Raman Spectroscopy, Including Higher Order Processes, and Also Brillouin- and Rayleigh Scattering . 2017,第9期

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3. Mapping State Space to Quasiclassical Trajectory Dynamics in Coherence-Controlled Nonadiabatic Simulations for Condensed Phase Problems [J] . Tao Guohua, Shen Na The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2017,第8期

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4. Tether Dynamics Toolbox - Simulation of Tethered Space System and Active Debris Removal Missions [C] . Becker M., Stoll E., Retat I. AIAA space forum;AIAA/AAS astrodynamics specialist conference . 2016

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5. Greedy algorithms for computations of thermal correlation functions and simulations of nonadiabatic quantum dynamics [D] . Chen, Xin 2008

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6. Nonadiabatic Dynamics Simulation Predict Intersystem Crossing in Nitroaromatic Molecules on a Picosecond Time Scale [O] . Dr. J. Patrick Zobel, Prof. Dr. Leticia González -1

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7. Mapping State Space to Quasiclassical Trajectory Dynamics in Coherence-Controlled Nonadiabatic Simulations for Condensed Phase Problems [O] . -1

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8. Extended active space CASSCF/MRSD CI calculations of the barrier height for the reaction: O H2 yields OH H [R] . Walch, Stephen P. 1986

机译：扩展活性空间CassCF / mRsD CI计算反应的势垒高度：O H2产生OH H.

Influence of the active space on CASSCF nonadiabatic dynamics simulations

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