Theory and application of explicitly correlated Gaussians

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dc.contributor.authorMitroy, Jim
dc.contributor.authorBubin, Sergiy
dc.contributor.authorHoriuchi, Wataru
dc.contributor.authorSuzuki, Yasuyuki
dc.contributor.authorAdamowicz, Ludwik
dc.contributor.authorCencek, Wojciech
dc.contributor.authorSzalewicz, Krzysztof
dc.contributor.authorKomasa, Jacek
dc.contributor.authorBlume, D.
dc.contributor.authorVarga, Ka´lma´n
dc.date.accessioned2016-01-29T08:08:42Z
dc.date.available2016-01-29T08:08:42Z
dc.date.issued2013
dc.description.abstractThe variational method complemented with the use of explicitly correlated Gaussian basis functions is one of the most powerful approaches currently used for calculating the properties of few-body systems. Despite its conceptual simplicity, the method offers great flexibility, high accuracy, and can be used to study diverse quantum systems, ranging from small atoms and molecules to light nuclei, hadrons, quantum dots, and Efimov systems. The basic theoretical foundations are discussed, recent advances in the applications of explicitly correlated Gaussians in physics and chemistry are reviewed, and the strengths and weaknesses of the explicitly correlated Gaussians approach are compared with other few-body techniquesru_RU
dc.identifier.citationMitroy Jim, Bubin Sergiy, Horiuchi Wataru, Suzuki Yasuyuki, Adamowicz Ludwik, Cencek Wojciech, Szalewicz Krzysztof, Komasa Jacek, Blume D., Varga Ka´lma´n; 2013; Theory and application of explicitly correlated Gaussians; REVIEWS OF MODERN PHYSICSru_RU
dc.identifier.urihttp://nur.nu.edu.kz/handle/123456789/1097
dc.language.isoenru_RU
dc.rightsAttribution-NonCommercial-ShareAlike 3.0 United States*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/3.0/us/*
dc.subjectResearch Subject Categories::NATURAL SCIENCES::Physicsru_RU
dc.subjectexplicitly correlated Gaussiansru_RU
dc.titleTheory and application of explicitly correlated Gaussiansru_RU
dc.typeArticleru_RU

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