Electronic structure calculations with interpolating tensor product wavelet basis

Tommi Höynälänmaa; Tapio T. Rantala

doi:10.48550/arXiv.2101.05540

Electronic structure calculations with interpolating tensor product wavelet basis

Tommi Höynälänmaa, Tapio T. Rantala

Fysiikka

Tutkimustuotos: Artikkeli › Tieteellinen

83 Lataukset (Pure)

Abstrakti

We introduce a basis set consisting of three-dimensional Deslauriers--Dubuc wavelets and numerically solve the Schr\"odinger equations of hydrogen atom, helium atom, hydrogen molecule ion, hydrogen molecule, and lithium hydride molecule with Hartree-Fock and DFT methods. We also compute the 2s and 2p excited states of hydrogen. The Coulomb singularity at the nucleus is handled by using a pseudopotential. Results are compared with those of CCCBDB and BigDFT. The eigenvalue problem is solved with Arnoldi and Lanczos methods, and the Poisson equation with GMRES and CGNR methods. The various matrix elements are computed using the biorthogonality relations of the interpolating wavelets.

Alkuperäiskieli	Englanti
Sivumäärä	22
Julkaisu	arXiv.org
DOI - pysyväislinkit	https://doi.org/10.48550/arXiv.2101.05540
Tila	Julkaistu - 14 tammik. 2021
OKM-julkaisutyyppi	B1 Kirjoitus tieteellisessä aikakausilehdessä

Pääsy asiakirjaan

10.48550/arXiv.2101.05540Lisenssi: CC BY

2101.05540-1Final published version, 271 KBLisenssi: CC BY

https://urn.fi/URN:NBN:fi:tuni-202206155676Lisenssi: CC BY

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title = "Electronic structure calculations with interpolating tensor product wavelet basis",

abstract = "We introduce a basis set consisting of three-dimensional Deslauriers--Dubuc wavelets and numerically solve the Schr\{"}odinger equations of hydrogen atom, helium atom, hydrogen molecule ion, hydrogen molecule, and lithium hydride molecule with Hartree-Fock and DFT methods. We also compute the 2s and 2p excited states of hydrogen. The Coulomb singularity at the nucleus is handled by using a pseudopotential. Results are compared with those of CCCBDB and BigDFT. The eigenvalue problem is solved with Arnoldi and Lanczos methods, and the Poisson equation with GMRES and CGNR methods. The various matrix elements are computed using the biorthogonality relations of the interpolating wavelets. ",

keywords = "quant-ph",

author = "Tommi H{\"o}yn{\"a}l{\"a}nmaa and Rantala, {Tapio T.}",

year = "2021",

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T1 - Electronic structure calculations with interpolating tensor product wavelet basis

AU - Höynälänmaa, Tommi

AU - Rantala, Tapio T.

PY - 2021/1/14

Y1 - 2021/1/14

N2 - We introduce a basis set consisting of three-dimensional Deslauriers--Dubuc wavelets and numerically solve the Schr\"odinger equations of hydrogen atom, helium atom, hydrogen molecule ion, hydrogen molecule, and lithium hydride molecule with Hartree-Fock and DFT methods. We also compute the 2s and 2p excited states of hydrogen. The Coulomb singularity at the nucleus is handled by using a pseudopotential. Results are compared with those of CCCBDB and BigDFT. The eigenvalue problem is solved with Arnoldi and Lanczos methods, and the Poisson equation with GMRES and CGNR methods. The various matrix elements are computed using the biorthogonality relations of the interpolating wavelets.

AB - We introduce a basis set consisting of three-dimensional Deslauriers--Dubuc wavelets and numerically solve the Schr\"odinger equations of hydrogen atom, helium atom, hydrogen molecule ion, hydrogen molecule, and lithium hydride molecule with Hartree-Fock and DFT methods. We also compute the 2s and 2p excited states of hydrogen. The Coulomb singularity at the nucleus is handled by using a pseudopotential. Results are compared with those of CCCBDB and BigDFT. The eigenvalue problem is solved with Arnoldi and Lanczos methods, and the Poisson equation with GMRES and CGNR methods. The various matrix elements are computed using the biorthogonality relations of the interpolating wavelets.

KW - quant-ph

U2 - 10.48550/arXiv.2101.05540

DO - 10.48550/arXiv.2101.05540

M3 - Article

SN - 2331-8422

JO - arXiv.org

JF - arXiv.org

ER -

Electronic structure calculations with interpolating tensor product wavelet basis

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