Tight-binding approximations to time-dependent density functional theory - A fast approach for the calculation of electronically excited states

Robert Rüger; Erik Van Lenthe; Thomas Heine; Lucas Visscher

doi:10.1063/1.4948647

Tight-binding approximations to time-dependent density functional theory - A fast approach for the calculation of electronically excited states

Robert Rüger, Erik Van Lenthe, Thomas Heine, Lucas Visscher

Department of Chemistry

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

36 Citations (Scopus)

Abstract

We propose a new method of calculating electronically excited states that combines a density functional theory based ground state calculation with a linear response treatment that employs approximations used in the time-dependent density functional based tight binding (TD-DFTB) approach. The new method termed time-dependent density functional theory TD-DFT+TB does not rely on the DFTB parametrization and is therefore applicable to systems involving all combinations of elements. We show that the new method yields UV/Vis absorption spectra that are in excellent agreement with computationally much more expensive TD-DFT calculations. Errors in vertical excitation energies are reduced by a factor of two compared to TD-DFTB.

Original language	English
Article number	184103
Journal	Journal of Chemical Physics
Volume	144
Issue number	18
DOIs	https://doi.org/10.1063/1.4948647
Publication status	Published - 2016 May 14

Bibliographical note

Publisher Copyright:
© 2016 Author(s).

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)
Physical and Theoretical Chemistry

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10.1063/1.4948647

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abstract = "We propose a new method of calculating electronically excited states that combines a density functional theory based ground state calculation with a linear response treatment that employs approximations used in the time-dependent density functional based tight binding (TD-DFTB) approach. The new method termed time-dependent density functional theory TD-DFT+TB does not rely on the DFTB parametrization and is therefore applicable to systems involving all combinations of elements. We show that the new method yields UV/Vis absorption spectra that are in excellent agreement with computationally much more expensive TD-DFT calculations. Errors in vertical excitation energies are reduced by a factor of two compared to TD-DFTB.",

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AU - Rüger, Robert

AU - Van Lenthe, Erik

AU - Heine, Thomas

AU - Visscher, Lucas

PY - 2016/5/14

Y1 - 2016/5/14

N2 - We propose a new method of calculating electronically excited states that combines a density functional theory based ground state calculation with a linear response treatment that employs approximations used in the time-dependent density functional based tight binding (TD-DFTB) approach. The new method termed time-dependent density functional theory TD-DFT+TB does not rely on the DFTB parametrization and is therefore applicable to systems involving all combinations of elements. We show that the new method yields UV/Vis absorption spectra that are in excellent agreement with computationally much more expensive TD-DFT calculations. Errors in vertical excitation energies are reduced by a factor of two compared to TD-DFTB.

AB - We propose a new method of calculating electronically excited states that combines a density functional theory based ground state calculation with a linear response treatment that employs approximations used in the time-dependent density functional based tight binding (TD-DFTB) approach. The new method termed time-dependent density functional theory TD-DFT+TB does not rely on the DFTB parametrization and is therefore applicable to systems involving all combinations of elements. We show that the new method yields UV/Vis absorption spectra that are in excellent agreement with computationally much more expensive TD-DFT calculations. Errors in vertical excitation energies are reduced by a factor of two compared to TD-DFTB.

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Tight-binding approximations to time-dependent density functional theory - A fast approach for the calculation of electronically excited states

Abstract

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