SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2939384850> ?p ?o ?g. }

Showing items 1 to 100 of ±179 with 100 items per page.

W2939384850 endingPage "154119" @default.
W2939384850 startingPage "154119" @default.
W2939384850 abstract "Trajectory surface hopping (TSH) methods have been widely used to study photoinduced nonadiabatic processes. In the present study, nonadiabatic dynamics simulations with the widely used Tully’s fewest switches surface hopping (FSSH) algorithm and a Landau-Zener-type TSH (LZSH) algorithm have been performed for the internal conversion dynamics of pyrazine. The accuracy of the two TSH algorithms has been critically evaluated by a direct comparison with exact quantum dynamics calculations for a model of pyrazine. The model comprises the three lowest excited electronic states (B3u(nπ*), A1u(nπ*), and B2u(ππ*)) and the nine most relevant vibrational degrees of freedom. Considering photoexcitation to the diabatic B2u(ππ*) state, we examined the time-dependent diabatic and adiabatic electronic population dynamics. It is found that the diabatic populations obtained with both TSH methods are in good agreement with the exact quantum results. Fast population oscillations between the B3u(nπ*) and A1u(nπ*) states, which reflect nonadiabatic electronic transitions driven by coherent dynamics in the normal mode Q8a, are qualitatively reproduced by both TSH methods. In addition to the model study, the TSH methods have been interfaced with the second-order algebraic diagrammatic construction ab initio electronic-structure method to perform full-dimensional on-the-fly nonadiabatic dynamics simulations for pyrazine. It is found that the electronic population dynamics obtained with the LZSH method is in excellent agreement with that obtained by the FSSH method using a local diabatization algorithm. Moreover, the electronic populations of the full-dimensional on-the-fly calculations are in excellent agreement with the populations of the three-state nine-mode model, which confirms that the internal conversion dynamics of pyrazine is accurately represented by this reduced-dimensional model on the time scale under consideration (200 fs). The original FSSH method, in which the electronic wave function is propagated in the adiabatic representation, yields less accurate results. The oscillations in the populations of the diabatic B3u(nπ*) and A1u(nπ*) states driven by the mode Q8a are also observed in the full-dimensional dynamics simulations." @default.
W2939384850 created "2019-04-25" @default.
W2939384850 creator A5012815089 @default.
W2939384850 creator A5016274435 @default.
W2939384850 creator A5034709087 @default.
W2939384850 creator A5058272982 @default.
W2939384850 creator A5071759433 @default.
W2939384850 date "2019-04-21" @default.
W2939384850 modified "2023-10-18" @default.
W2939384850 title "Assessing the performance of trajectory surface hopping methods: Ultrafast internal conversion in pyrazine" @default.
W2939384850 cites W1498377335 @default.
W2939384850 cites W1527423545 @default.
W2939384850 cites W1541211828 @default.
W2939384850 cites W1964657275 @default.
W2939384850 cites W1969118028 @default.
W2939384850 cites W1970283177 @default.
W2939384850 cites W1974399067 @default.
W2939384850 cites W1976837932 @default.
W2939384850 cites W1981659415 @default.
W2939384850 cites W1985633387 @default.
W2939384850 cites W1990345925 @default.
W2939384850 cites W1994505430 @default.
W2939384850 cites W1995497075 @default.
W2939384850 cites W2008105736 @default.
W2939384850 cites W2013673362 @default.
W2939384850 cites W2015476020 @default.
W2939384850 cites W2016823067 @default.
W2939384850 cites W2022368043 @default.
W2939384850 cites W2024481252 @default.
W2939384850 cites W2024487663 @default.
W2939384850 cites W2024617485 @default.
W2939384850 cites W2025012678 @default.
W2939384850 cites W2029167881 @default.
W2939384850 cites W2029464997 @default.
W2939384850 cites W2032993984 @default.
W2939384850 cites W2034587977 @default.
W2939384850 cites W2036860653 @default.
W2939384850 cites W2037370606 @default.
W2939384850 cites W2038029283 @default.
W2939384850 cites W2038865006 @default.
W2939384850 cites W2042376529 @default.
W2939384850 cites W2046074511 @default.
W2939384850 cites W2047914529 @default.
W2939384850 cites W2055032509 @default.
W2939384850 cites W2057727521 @default.
W2939384850 cites W2058465572 @default.
W2939384850 cites W2058802655 @default.
W2939384850 cites W2060696308 @default.
W2939384850 cites W2061220442 @default.
W2939384850 cites W2068920655 @default.
W2939384850 cites W2069071472 @default.
W2939384850 cites W2070541026 @default.
W2939384850 cites W2073125394 @default.
W2939384850 cites W2077985253 @default.
W2939384850 cites W2078294955 @default.
W2939384850 cites W2080194069 @default.
W2939384850 cites W2080648366 @default.
W2939384850 cites W2081604033 @default.
W2939384850 cites W2091619235 @default.
W2939384850 cites W2092446695 @default.
W2939384850 cites W2092516834 @default.
W2939384850 cites W2092990474 @default.
W2939384850 cites W2094875896 @default.
W2939384850 cites W2108772207 @default.
W2939384850 cites W2113966312 @default.
W2939384850 cites W2120886788 @default.
W2939384850 cites W2121625970 @default.
W2939384850 cites W2125410420 @default.
W2939384850 cites W2127590169 @default.
W2939384850 cites W2166159133 @default.
W2939384850 cites W2167979172 @default.
W2939384850 cites W2168051561 @default.
W2939384850 cites W2169135284 @default.
W2939384850 cites W2178042910 @default.
W2939384850 cites W2233352133 @default.
W2939384850 cites W2293135358 @default.
W2939384850 cites W2313613426 @default.
W2939384850 cites W2321783554 @default.
W2939384850 cites W2353643386 @default.
W2939384850 cites W2480670744 @default.
W2939384850 cites W2485884452 @default.
W2939384850 cites W2491218394 @default.
W2939384850 cites W2491861284 @default.
W2939384850 cites W2535354753 @default.
W2939384850 cites W2567215560 @default.
W2939384850 cites W2594315916 @default.
W2939384850 cites W2770861749 @default.
W2939384850 cites W2786023940 @default.
W2939384850 cites W2786827898 @default.
W2939384850 cites W2789218840 @default.
W2939384850 cites W2905224208 @default.
W2939384850 cites W2922267790 @default.
W2939384850 cites W3100128886 @default.
W2939384850 cites W3102358542 @default.
W2939384850 cites W4230969029 @default.
W2939384850 cites W4246098564 @default.
W2939384850 cites W4247218460 @default.
W2939384850 doi "https://doi.org/10.1063/1.5084961" @default.