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Li, Run.
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Theory and Application Development of Electronic Structure Methods Involving Heavy Computation.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Theory and Application Development of Electronic Structure Methods Involving Heavy Computation./
作者:
Li, Run.
出版者:
Ann Arbor : ProQuest Dissertations & Theses, : 2017,
面頁冊數:
170 p.
附註:
Source: Dissertation Abstracts International, Volume: 79-02(E), Section: A.
Contained By:
Dissertation Abstracts International79-02A(E).
標題:
Physical education. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=10615199
ISBN:
9780355432626
Theory and Application Development of Electronic Structure Methods Involving Heavy Computation.
Li, Run.
Theory and Application Development of Electronic Structure Methods Involving Heavy Computation.
- Ann Arbor : ProQuest Dissertations & Theses, 2017 - 170 p.
Source: Dissertation Abstracts International, Volume: 79-02(E), Section: A.
Thesis (Ph.D.)--The University of North Dakota, 2017.
The propargyl radical, the most stable isomer of C3H3, is very important in combustion reactions. However, theoretical calculations have never been able to find a strong absorption around 242 nm as seen in experiments. In this study, we calculated the electronic energy levels of the propargyl radical using highly accurate multireference methods, including multireference configuration interaction singles and doubles method with triples and quadruples treated perturbatively [denoted as MRCISD(TQ)], as well as second and third order generalized Van Vleck perturbation theories (GVVPT2 and GVVPT3). Calculations indicate that this absorption can be solely attributed to a Franck-Condon-allowed transition from the ground B1 state to the Rydberg-like first A1 excited state. Calculations also show that GVVPT2 with a relatively small active space fails to capture enough Rydberg character of this excited state, while it can be recovered by GVVPT3, MRCISD, and MRCISD(TQ).
ISBN: 9780355432626Subjects--Topical Terms:
635343
Physical education.
Theory and Application Development of Electronic Structure Methods Involving Heavy Computation.
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The propargyl radical, the most stable isomer of C3H3, is very important in combustion reactions. However, theoretical calculations have never been able to find a strong absorption around 242 nm as seen in experiments. In this study, we calculated the electronic energy levels of the propargyl radical using highly accurate multireference methods, including multireference configuration interaction singles and doubles method with triples and quadruples treated perturbatively [denoted as MRCISD(TQ)], as well as second and third order generalized Van Vleck perturbation theories (GVVPT2 and GVVPT3). Calculations indicate that this absorption can be solely attributed to a Franck-Condon-allowed transition from the ground B1 state to the Rydberg-like first A1 excited state. Calculations also show that GVVPT2 with a relatively small active space fails to capture enough Rydberg character of this excited state, while it can be recovered by GVVPT3, MRCISD, and MRCISD(TQ).
520
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In order to speed up MRCISD(TQ) calculations, the triple and quadruple (TQ) perturbative corrections, the most time-consuming part of MRCISD(TQ) calculations, were parallelized using Message Passing Interface (MPI). The MRCISD(TQ) method is organized in the framework of macroconfigurations, which allows the use of incomplete reference spaces and provides an efficient means of screening large number of non-interacting configuration state functions (CSFs). The test calculations show that the parallel code achieved close to linear speed-up when the number of CSFs in each macroconfiguration is small. The speed-up suffers when large numbers of CSFs exist in only a few macroconfigurations.
520
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The computer algorithm for second-order generalized van Vleck multireference perturbation theory (GVVPT2) was similarly parallelized using the MPI protocol, organized in the framework of macroconfigurations. The maximum number of CSFs per macroconfiguration is found to have less influence on the MPI speedup and scaling than in the case of MRCISD(TQ).
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It was previously found that unrestricted local density approximation (LDA) orbitals can be used in place of MCSCF to provide orbitals for GVVPT2. This inspired us to use the more controllable restricted density functional theory (DFT) to provide unbiased orbitals for GVVPT2 calculations. In this study, the relationship between restricted DFT and unrestricted DFT were explored and the restricted DFT results were obtained by utilizing subroutines from unrestricted DFT calculations. We also found that the DIIS technique drastically sped up the convergence of RDFT calculations.
520
$a
Plane wave DFT methods are commonly used to efficiently evaluate solid state materials. In this work, the electronic properties of pristine graphene and Zn-phthalocyanine tetrasulfonic acid (Zn-PcS) physisorbed on single-layer graphene were calculated using plane wave DFT. The Perdew-Burke-Ernzerhof functional with dispersion correction (PBE-D2) was used. The densities of states were obtained for both pristine and absorbed graphene, and the disappearance of the characteristic dip in the density of states of the adsorbed system was attributed to the lowest unoccupied molecular orbital of the adsorbed molecule. A small charge transfer from graphene to the molecule was found. We present comparison of DFT results with Scanning Tunneling Microscopy/Spectroscopy data.
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