Flying onto global minima on potential energy surfaces: A swarm intelligence guided route to molecular electronic structure

Rishabh Shukla; Debmalya Ray; Kanchan Sarkar; Mayank Kumar Dixit; Shankar Prasad Bhattacharyya

doi:10.1002/qua.25328

Flying onto global minima on potential energy surfaces: A swarm intelligence guided route to molecular electronic structure

Rishabh Shukla, Debmalya Ray, Kanchan Sarkar, Mayank Kumar Dixit, Shankar Prasad Bhattacharyya

Chemical Separations Group

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

A novel quantum-classical recipe for locating the global minimum on the potential energy surface of a large molecule and simultaneously predicting the associated electronic charge distribution is developed by interfacing the classical particle swarm optimization with a near optimal unitary evolution scheme for the trial one electron density matrix. The unitary transformation is generated by an antihermitian matrix linked to the molecular electronic Hamiltonian at the instantaneous nuclear configurations discovered by the swarm as it flies. The algorithm is used to predict the extensive reorganization of electronic charge distribution and bond lengths in polythiophene oligomers on doping at various levels.

Original language	English
Article number	e25328
Journal	International Journal of Quantum Chemistry
Volume	117
Issue number	5
DOIs	https://doi.org/10.1002/qua.25328
State	Published - Mar 5 2017

Keywords

Su-Schrieffer–Heeger π-electron Hamiltonian
antihermitian matrix
neutral and doped polythiophene
one electron density matrix
particle swarm optimization

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10.1002/qua.25328

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title = "Flying onto global minima on potential energy surfaces: A swarm intelligence guided route to molecular electronic structure",

abstract = "A novel quantum-classical recipe for locating the global minimum on the potential energy surface of a large molecule and simultaneously predicting the associated electronic charge distribution is developed by interfacing the classical particle swarm optimization with a near optimal unitary evolution scheme for the trial one electron density matrix. The unitary transformation is generated by an antihermitian matrix linked to the molecular electronic Hamiltonian at the instantaneous nuclear configurations discovered by the swarm as it flies. The algorithm is used to predict the extensive reorganization of electronic charge distribution and bond lengths in polythiophene oligomers on doping at various levels.",

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author = "Rishabh Shukla and Debmalya Ray and Kanchan Sarkar and {Kumar Dixit}, Mayank and {Prasad Bhattacharyya}, Shankar",

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AU - Shukla, Rishabh

AU - Ray, Debmalya

AU - Sarkar, Kanchan

AU - Kumar Dixit, Mayank

AU - Prasad Bhattacharyya, Shankar

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AB - A novel quantum-classical recipe for locating the global minimum on the potential energy surface of a large molecule and simultaneously predicting the associated electronic charge distribution is developed by interfacing the classical particle swarm optimization with a near optimal unitary evolution scheme for the trial one electron density matrix. The unitary transformation is generated by an antihermitian matrix linked to the molecular electronic Hamiltonian at the instantaneous nuclear configurations discovered by the swarm as it flies. The algorithm is used to predict the extensive reorganization of electronic charge distribution and bond lengths in polythiophene oligomers on doping at various levels.

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KW - antihermitian matrix

KW - neutral and doped polythiophene

KW - one electron density matrix

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IS - 5

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Flying onto global minima on potential energy surfaces: A swarm intelligence guided route to molecular electronic structure

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