MCTDH on-the-fly: Efficient grid-based quantum dynamics without pre-computed potential energy surfaces

We present significant algorithmic improvements to a recently proposed direct quantum dynamics method, based upon combining well established grid-based quantum dynamics approaches and expansions of the potential energy operator in terms of a weighted sum of Gaussian functions. Specifically, using a...

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Veröffentlicht in:	The Journal of chemical physics 2018-04, Vol.148 (13), p.134116-134116
Hauptverfasser:	Richings, Gareth W., Habershon, Scott
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Sprache:	eng
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container_title	The Journal of chemical physics
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creator	Richings, Gareth W. Habershon, Scott
description	We present significant algorithmic improvements to a recently proposed direct quantum dynamics method, based upon combining well established grid-based quantum dynamics approaches and expansions of the potential energy operator in terms of a weighted sum of Gaussian functions. Specifically, using a sum of low-dimensional Gaussian functions to represent the potential energy surface (PES), combined with a secondary fitting of the PES using singular value decomposition, we show how standard grid-based quantum dynamics methods can be dramatically accelerated without loss of accuracy. This is demonstrated by on-the-fly simulations (using both standard grid-based methods and multi-configuration time-dependent Hartree) of both proton transfer on the electronic ground state of salicylaldimine and the non-adiabatic dynamics of pyrazine.
doi_str_mv	10.1063/1.5024869
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title	MCTDH on-the-fly: Efficient grid-based quantum dynamics without pre-computed potential energy surfaces
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