SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3173150532> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W3173150532 abstract "Since the seminal work of Tully [J. Chem. Phys. 93, 1061 (1990)], two-level scattering models have been extensively adopted as the standard benchmark systems to assess the performance of different trajectory surface hopping methods for nonadiabatic dynamics simulations. Here, we extend the branching and phase corrections to multilevel systems and combine them with both the traditional fewest switches surface hopping (FSSH) and its variant global flux surface hopping (GFSH) algorithms. To get a comprehensive evaluation of the proposed methods, we construct a series of more challenging and diverse three-level and four-level scattering models and use exact quantum solutions as references. Encouragingly, both FSSH and GFSH with the branching and phase corrections produce excellent and nearly identical results in all investigated systems, indicating that the new surface hopping methods are robust to describe multilevel problems and the reliability is insensitive to the definition of self-consistent hopping probabilities in the adiabatic representation. Furthermore, the branching correction is found to be especially important when dealing with strongly repulsive potential energy surfaces, which are common in realistic systems, thus promising for general applications." @default.
W3173150532 created "2021-07-05" @default.
W3173150532 creator A5012979963 @default.
W3173150532 creator A5042906115 @default.
W3173150532 creator A5042929513 @default.
W3173150532 date "2021-06-21" @default.
W3173150532 modified "2023-10-14" @default.
W3173150532 title "Branching and phase corrected surface hopping: A benchmark of nonadiabatic dynamics in multilevel systems" @default.
W3173150532 cites W1565409402 @default.
W3173150532 cites W1966702069 @default.
W3173150532 cites W1970022823 @default.
W3173150532 cites W1970402799 @default.
W3173150532 cites W1972513465 @default.
W3173150532 cites W1974399067 @default.
W3173150532 cites W1976520419 @default.
W3173150532 cites W1986146290 @default.
W3173150532 cites W1994505430 @default.
W3173150532 cites W2000572831 @default.
W3173150532 cites W2003144187 @default.
W3173150532 cites W2022368043 @default.
W3173150532 cites W2023451820 @default.
W3173150532 cites W2030094693 @default.
W3173150532 cites W2030985776 @default.
W3173150532 cites W2038029283 @default.
W3173150532 cites W2049217196 @default.
W3173150532 cites W2062328965 @default.
W3173150532 cites W2068170707 @default.
W3173150532 cites W2068325497 @default.
W3173150532 cites W2068920655 @default.
W3173150532 cites W2075725770 @default.
W3173150532 cites W2076968034 @default.
W3173150532 cites W2083021440 @default.
W3173150532 cites W2085867137 @default.
W3173150532 cites W2092516834 @default.
W3173150532 cites W2096378385 @default.
W3173150532 cites W2114112946 @default.
W3173150532 cites W2127590169 @default.
W3173150532 cites W2169135284 @default.
W3173150532 cites W2213962379 @default.
W3173150532 cites W2322598415 @default.
W3173150532 cites W2353643386 @default.
W3173150532 cites W2464080070 @default.
W3173150532 cites W2464466591 @default.
W3173150532 cites W2524907703 @default.
W3173150532 cites W2599004944 @default.
W3173150532 cites W2605674843 @default.
W3173150532 cites W2627316372 @default.
W3173150532 cites W2685750502 @default.
W3173150532 cites W2786827898 @default.
W3173150532 cites W2794422366 @default.
W3173150532 cites W2804933479 @default.
W3173150532 cites W2883953738 @default.
W3173150532 cites W2907852209 @default.
W3173150532 cites W2913566461 @default.
W3173150532 cites W2940598399 @default.
W3173150532 cites W2946617087 @default.
W3173150532 cites W2952412731 @default.
W3173150532 cites W2965376497 @default.
W3173150532 cites W2993274724 @default.
W3173150532 cites W2998420865 @default.
W3173150532 cites W3005979858 @default.
W3173150532 cites W3012427308 @default.
W3173150532 cites W3087336586 @default.
W3173150532 cites W3098916148 @default.
W3173150532 cites W3105399586 @default.
W3173150532 cites W3118640833 @default.
W3173150532 cites W3127462283 @default.
W3173150532 doi "https://doi.org/10.1063/5.0056224" @default.
W3173150532 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34241240" @default.
W3173150532 hasPublicationYear "2021" @default.
W3173150532 type Work @default.
W3173150532 sameAs 3173150532 @default.
W3173150532 citedByCount "6" @default.
W3173150532 countsByYear W31731505322022 @default.
W3173150532 countsByYear W31731505322023 @default.
W3173150532 crossrefType "journal-article" @default.
W3173150532 hasAuthorship W3173150532A5012979963 @default.
W3173150532 hasAuthorship W3173150532A5042906115 @default.
W3173150532 hasAuthorship W3173150532A5042929513 @default.
W3173150532 hasConcept C109663097 @default.
W3173150532 hasConcept C121332964 @default.
W3173150532 hasConcept C121864883 @default.
W3173150532 hasConcept C13280743 @default.
W3173150532 hasConcept C178790620 @default.
W3173150532 hasConcept C185592680 @default.
W3173150532 hasConcept C185798385 @default.
W3173150532 hasConcept C191486275 @default.
W3173150532 hasConcept C205649164 @default.
W3173150532 hasConcept C206175624 @default.
W3173150532 hasConcept C2524010 @default.
W3173150532 hasConcept C2776799497 @default.
W3173150532 hasConcept C2780242237 @default.
W3173150532 hasConcept C33923547 @default.
W3173150532 hasConcept C62520636 @default.
W3173150532 hasConcept C84114770 @default.
W3173150532 hasConceptScore W3173150532C109663097 @default.
W3173150532 hasConceptScore W3173150532C121332964 @default.
W3173150532 hasConceptScore W3173150532C121864883 @default.
W3173150532 hasConceptScore W3173150532C13280743 @default.
W3173150532 hasConceptScore W3173150532C178790620 @default.