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Efficient HF exchange evaluation through Fourier convolution in Cartesian grid for orbital-dependent density

Abhisek Ghosal1, Tanmay Mandal1, Amlan K Roy1

  • 1Department of Chemical Sciences, Indian Institute of Science Education and Research (IISER) Kolkata, Nadia, Mohanpur, WB 741246, India.

The Journal of Chemical Physics
|February 17, 2019
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Summary
This summary is machine-generated.

A new numerical method efficiently computes Hartree-Fock exchange in quantum chemistry models. This approach offers logarithmic scaling with molecular size, enabling faster calculations for complex systems.

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Area of Science:

  • Computational Chemistry
  • Quantum Chemistry
  • Theoretical Chemistry

Background:

  • Accurate computation of Hartree-Fock (HF) exchange is crucial for HF and density functional theory (DFT) models.
  • Existing methods often face computational bottlenecks, particularly in evaluating electrostatic potentials.

Purpose of the Study:

  • To develop a purely numerical, Cartesian grid-based approach for efficient HF exchange computation.
  • To extend this method to global hybrid functionals and compare its performance with existing algorithms.

Main Methods:

  • Utilizes the Fourier convolution theorem with a range-separated Coulomb interaction kernel.
  • Employs an LCAO-MO ansatz in a Cartesian grid for global hybrid functionals.
  • A parallel semi-numerical approach using the Obara-Saika recursion algorithm was developed for comparison.

Main Results:

  • The proposed numerical scheme achieves logarithmic scaling with molecular size.
  • Excellent agreement was found between the numerical and semi-numerical approaches for total and orbital energies.
  • The method was successfully extended to global hybrid functionals like B3LYP, PBE0, and BHLYP.

Conclusions:

  • The developed numerical approach provides a highly efficient and competitive method for calculating HF exchange.
  • This work paves the way for further development of optimally tuned range-separated hybrid and hyper functionals.