SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3036699321> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W3036699321 endingPage "5034" @default.
W3036699321 startingPage "5024" @default.
W3036699321 abstract "Negative-ion resonances are important metastable states that result from the collision between an electron and a neutral target. The course of many chemical processes in nature is often dictated by how an intermediate resonance state falls apart. This article reports on the development of an electron propagator (EP) based on a Hamiltonian Ĥ perturbed by a complex absorbing potential (CAP) and a multiconfigurational self-consistent field (MCSCF) initial state to study these resonances. Perturbation of Ĥ by a CAP makes the resonances amenable to a bound-state method like MCSCF. Resonances stand out among the non-resonant states as persistent complex eigenvalues of the perturbed Ĥ when the strength (η) of the CAP is varied. The MCSCF method gives a reliable and accurate description of the target states, especially when the non-dynamical correlations are dominant. The resonance energies are obtained from the poles of the EP. We propose three variants of our EP depending on how the effect of the CAP is introduced. We find that the computationally most efficient variant is the one in which the reference state of the EP is an unperturbed MCSCF wavefunction and a non-zero CAP is defined only on the virtual orbital subspace of the reference state. The onset of the CAP is carefully optimized in order to minimize the artifacts due to reflections from the CAP. An extrapolation method (based on a Padé approximant) and a de-perturbation method are adopted in order to account for the limitations of finite basis sets used and determine the resonance energy in the limit of η → 0. 2P Be-, 2Πg N2-, and 2Π CO- shape resonances are investigated. The position and width of these resonances computed in this study agree well with those reported earlier in the literature." @default.
W3036699321 created "2020-06-25" @default.
W3036699321 creator A5051941433 @default.
W3036699321 creator A5060174560 @default.
W3036699321 creator A5073019184 @default.
W3036699321 date "2020-06-22" @default.
W3036699321 modified "2023-10-16" @default.
W3036699321 title "An Electron Propagator Approach Based on a Multiconfigurational Reference State for the Investigation of Negative-Ion Resonances Using a Complex Absorbing Potential Method" @default.
W3036699321 cites W136696489 @default.
W3036699321 cites W1527530376 @default.
W3036699321 cites W1532177405 @default.
W3036699321 cites W1544088042 @default.
W3036699321 cites W1560140409 @default.
W3036699321 cites W1572766515 @default.
W3036699321 cites W1620332225 @default.
W3036699321 cites W1636389780 @default.
W3036699321 cites W1649271673 @default.
W3036699321 cites W1665685670 @default.
W3036699321 cites W1792454059 @default.
W3036699321 cites W1967804456 @default.
W3036699321 cites W1972439449 @default.
W3036699321 cites W1977172747 @default.
W3036699321 cites W1979293498 @default.
W3036699321 cites W1982439799 @default.
W3036699321 cites W1983232696 @default.
W3036699321 cites W1987481449 @default.
W3036699321 cites W1988061541 @default.
W3036699321 cites W1992036784 @default.
W3036699321 cites W1992535203 @default.
W3036699321 cites W1997808756 @default.
W3036699321 cites W1999835262 @default.
W3036699321 cites W2000704476 @default.
W3036699321 cites W2008506080 @default.
W3036699321 cites W2010561889 @default.
W3036699321 cites W2014894160 @default.
W3036699321 cites W2015264199 @default.
W3036699321 cites W2015467536 @default.
W3036699321 cites W2017790691 @default.
W3036699321 cites W2018128066 @default.
W3036699321 cites W2022925321 @default.
W3036699321 cites W2029729303 @default.
W3036699321 cites W2031794760 @default.
W3036699321 cites W2031941917 @default.
W3036699321 cites W2039477024 @default.
W3036699321 cites W2040007720 @default.
W3036699321 cites W2043234702 @default.
W3036699321 cites W2044615130 @default.
W3036699321 cites W2047656895 @default.
W3036699321 cites W2048945577 @default.
W3036699321 cites W2051685147 @default.
W3036699321 cites W2052169295 @default.
W3036699321 cites W2053881370 @default.
W3036699321 cites W2054922040 @default.
W3036699321 cites W2057029961 @default.
W3036699321 cites W2059737335 @default.
W3036699321 cites W2061051838 @default.
W3036699321 cites W2069453797 @default.
W3036699321 cites W2071710825 @default.
W3036699321 cites W2072212216 @default.
W3036699321 cites W2077758523 @default.
W3036699321 cites W2080307142 @default.
W3036699321 cites W2082933133 @default.
W3036699321 cites W2082962774 @default.
W3036699321 cites W2085098901 @default.
W3036699321 cites W2085200073 @default.
W3036699321 cites W2086275649 @default.
W3036699321 cites W2088018086 @default.
W3036699321 cites W2092725981 @default.
W3036699321 cites W2101608919 @default.
W3036699321 cites W2105444231 @default.
W3036699321 cites W2129726481 @default.
W3036699321 cites W2140282249 @default.
W3036699321 cites W2155711475 @default.
W3036699321 cites W2166328036 @default.
W3036699321 cites W2173633196 @default.
W3036699321 cites W2287917569 @default.
W3036699321 cites W2320571400 @default.
W3036699321 cites W2326643017 @default.
W3036699321 cites W2337963227 @default.
W3036699321 cites W2475944758 @default.
W3036699321 cites W2523492947 @default.
W3036699321 cites W2524092969 @default.
W3036699321 cites W2559851423 @default.
W3036699321 cites W2586825326 @default.
W3036699321 cites W2763076922 @default.
W3036699321 cites W2950960607 @default.
W3036699321 cites W298553806 @default.
W3036699321 cites W3006087430 @default.
W3036699321 cites W3007055737 @default.
W3036699321 cites W4242587252 @default.
W3036699321 doi "https://doi.org/10.1021/acs.jctc.0c00434" @default.
W3036699321 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32568537" @default.
W3036699321 hasPublicationYear "2020" @default.
W3036699321 type Work @default.
W3036699321 sameAs 3036699321 @default.
W3036699321 citedByCount "9" @default.
W3036699321 countsByYear W30366993212020 @default.
W3036699321 countsByYear W30366993212021 @default.