2021
DOI: 10.1016/j.cpc.2020.107521
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Efficient update of determinants for many-electron wave function overlaps

Abstract: The calculation of overlaps between many-electron wave functions at different nuclear geometries during nonadiabatic dynamics simulations requires the evaluation of a large number of determinants of matrices that differ only in a few rows/columns. While this calculation is fast for small systems, its cost grows faster than the alternative electronic structure calculation used to obtain the wave functions. For wave functions that can be written as a CIS expansion, all determinants can be computed using the set … Show more

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Cited by 2 publications
(1 citation statement)
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“…This does not impede SH simulations, as most implementations require only scalar time-derivative couplings σ(t) = Ψ I |∂/∂t|Ψ J = d IJ • ξ, which can be computed by numerical differentiation without explicit recourse to d IJ . Such an approach can be quite efficient [31,32] so that the coupling evaluation is at least for small molecules not the computational bottleneck in a NAMD simulation. Questions remain about the validity of numerical couplings in the context of TD-DFT, since the theory does not provide many-body wave functions and one is forced to apply ad-hoc approximation to this quantity [20,33].…”
Section: Introductionmentioning
confidence: 99%
“…This does not impede SH simulations, as most implementations require only scalar time-derivative couplings σ(t) = Ψ I |∂/∂t|Ψ J = d IJ • ξ, which can be computed by numerical differentiation without explicit recourse to d IJ . Such an approach can be quite efficient [31,32] so that the coupling evaluation is at least for small molecules not the computational bottleneck in a NAMD simulation. Questions remain about the validity of numerical couplings in the context of TD-DFT, since the theory does not provide many-body wave functions and one is forced to apply ad-hoc approximation to this quantity [20,33].…”
Section: Introductionmentioning
confidence: 99%