Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /

Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /

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On the occasion of the fourth International Conference on Industrial and Applied Mathematics!, we decided to organize a sequence of 4 minisymposia devoted to the mathematical aspects and the numerical aspects of Quantum Chemistry. Our goal was to bring together scientists from different communities, namely mathematicians, experts at numerical analysis and computer science, chemists, just to see whether this heterogeneous set of lecturers can produce a rather homogeneous presentation of the domain to an uninitiated audience. To the best of our knowledgde, nothing of this kind had never been tempted so far. It seemed to us that it was the good time for doing it, both . because the interest of applied mathematicians into the world of computational chemistry has exponentially increased in the past few years, and because the community of chemists feels more and more concerned with the numerical issues. Indeed, in the early years of Quantum Chemistry, the pioneers (Coulson, Mac Weeny, just to quote two of them) used to solve fundamental equations modelling toy systems which could be simply numerically handled in view of their very limited size. The true difficulty arose with the need to model larger systems while possibly taking into account their interaction with their environment. Hand calculations were no longer possible, and computing science came into the picture.

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Bibliographic Details
Main Authors: Defranceschi, Mireille. author., Bris, Claude Le. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2000
Subjects:Chemistry., Chemoinformatics., Chemometrics., Chemistry, Physical and theoretical., Number theory., Quantum physics., Quantum computers., Spintronics., Theoretical and Computational Chemistry., Math. Applications in Chemistry., Computer Applications in Chemistry., Quantum Information Technology, Spintronics., Quantum Physics., Number Theory.,
Online Access:http://dx.doi.org/10.1007/978-3-642-57237-1
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id KOHA-OAI-TEST:212400
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Chemistry.
Chemoinformatics.
Chemometrics.
Chemistry, Physical and theoretical.
Number theory.
Quantum physics.
Quantum computers.
Spintronics.
Chemistry.
Theoretical and Computational Chemistry.
Math. Applications in Chemistry.
Computer Applications in Chemistry.
Quantum Information Technology, Spintronics.
Quantum Physics.
Number Theory.
Chemistry.
Chemoinformatics.
Chemometrics.
Chemistry, Physical and theoretical.
Number theory.
Quantum physics.
Quantum computers.
Spintronics.
Chemistry.
Theoretical and Computational Chemistry.
Math. Applications in Chemistry.
Computer Applications in Chemistry.
Quantum Information Technology, Spintronics.
Quantum Physics.
Number Theory.
spellingShingle Chemistry.
Chemoinformatics.
Chemometrics.
Chemistry, Physical and theoretical.
Number theory.
Quantum physics.
Quantum computers.
Spintronics.
Chemistry.
Theoretical and Computational Chemistry.
Math. Applications in Chemistry.
Computer Applications in Chemistry.
Quantum Information Technology, Spintronics.
Quantum Physics.
Number Theory.
Chemistry.
Chemoinformatics.
Chemometrics.
Chemistry, Physical and theoretical.
Number theory.
Quantum physics.
Quantum computers.
Spintronics.
Chemistry.
Theoretical and Computational Chemistry.
Math. Applications in Chemistry.
Computer Applications in Chemistry.
Quantum Information Technology, Spintronics.
Quantum Physics.
Number Theory.
Defranceschi, Mireille. author.
Bris, Claude Le. author.
SpringerLink (Online service)
Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /
description On the occasion of the fourth International Conference on Industrial and Applied Mathematics!, we decided to organize a sequence of 4 minisymposia devoted to the mathematical aspects and the numerical aspects of Quantum Chemistry. Our goal was to bring together scientists from different communities, namely mathematicians, experts at numerical analysis and computer science, chemists, just to see whether this heterogeneous set of lecturers can produce a rather homogeneous presentation of the domain to an uninitiated audience. To the best of our knowledgde, nothing of this kind had never been tempted so far. It seemed to us that it was the good time for doing it, both . because the interest of applied mathematicians into the world of computational chemistry has exponentially increased in the past few years, and because the community of chemists feels more and more concerned with the numerical issues. Indeed, in the early years of Quantum Chemistry, the pioneers (Coulson, Mac Weeny, just to quote two of them) used to solve fundamental equations modelling toy systems which could be simply numerically handled in view of their very limited size. The true difficulty arose with the need to model larger systems while possibly taking into account their interaction with their environment. Hand calculations were no longer possible, and computing science came into the picture.
format Texto
topic_facet Chemistry.
Chemoinformatics.
Chemometrics.
Chemistry, Physical and theoretical.
Number theory.
Quantum physics.
Quantum computers.
Spintronics.
Chemistry.
Theoretical and Computational Chemistry.
Math. Applications in Chemistry.
Computer Applications in Chemistry.
Quantum Information Technology, Spintronics.
Quantum Physics.
Number Theory.
author Defranceschi, Mireille. author.
Bris, Claude Le. author.
SpringerLink (Online service)
author_facet Defranceschi, Mireille. author.
Bris, Claude Le. author.
SpringerLink (Online service)
author_sort Defranceschi, Mireille. author.
title Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /
title_short Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /
title_full Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /
title_fullStr Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /
title_full_unstemmed Mathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] /
title_sort mathematical models and methods for ab initio quantum chemistry [electronic resource] /
publisher Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,
publishDate 2000
url http://dx.doi.org/10.1007/978-3-642-57237-1
work_keys_str_mv AT defranceschimireilleauthor mathematicalmodelsandmethodsforabinitioquantumchemistryelectronicresource
AT brisclaudeleauthor mathematicalmodelsandmethodsforabinitioquantumchemistryelectronicresource
AT springerlinkonlineservice mathematicalmodelsandmethodsforabinitioquantumchemistryelectronicresource
_version_ 1756269063558922240
spelling KOHA-OAI-TEST:2124002018-07-30T23:45:37ZMathematical Models and Methods for Ab Initio Quantum Chemistry [electronic resource] / Defranceschi, Mireille. author. Bris, Claude Le. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer,2000.engOn the occasion of the fourth International Conference on Industrial and Applied Mathematics!, we decided to organize a sequence of 4 minisymposia devoted to the mathematical aspects and the numerical aspects of Quantum Chemistry. Our goal was to bring together scientists from different communities, namely mathematicians, experts at numerical analysis and computer science, chemists, just to see whether this heterogeneous set of lecturers can produce a rather homogeneous presentation of the domain to an uninitiated audience. To the best of our knowledgde, nothing of this kind had never been tempted so far. It seemed to us that it was the good time for doing it, both . because the interest of applied mathematicians into the world of computational chemistry has exponentially increased in the past few years, and because the community of chemists feels more and more concerned with the numerical issues. Indeed, in the early years of Quantum Chemistry, the pioneers (Coulson, Mac Weeny, just to quote two of them) used to solve fundamental equations modelling toy systems which could be simply numerically handled in view of their very limited size. The true difficulty arose with the need to model larger systems while possibly taking into account their interaction with their environment. Hand calculations were no longer possible, and computing science came into the picture.I General topics -- Is a molecule in chemistry explicable as a broken symmetry in quantum mechanics? -- SCF algorithms for HF electronic calculations -- A pedagogical introduction to Quantum Monte-Carlo -- On the controllability of bilinear quantum systems -- II Condensed phases -- Recent mathematical results on the quantum modeling of crystals -- Local density approximations for the energy of a periodic Coulomb model -- A mathematical insight into ab initio simulations of the solid phase -- Examples of hidden numerical tricks in a solid state determination of electronic structure -- Quantum mechanical models for systems in solution -- III Relativistic models -- Variational methods in relativistic quantum mechanics: new approach to the computation of Dirac eigenvalues -- Quaternion symmetry of the Dirac equation.On the occasion of the fourth International Conference on Industrial and Applied Mathematics!, we decided to organize a sequence of 4 minisymposia devoted to the mathematical aspects and the numerical aspects of Quantum Chemistry. Our goal was to bring together scientists from different communities, namely mathematicians, experts at numerical analysis and computer science, chemists, just to see whether this heterogeneous set of lecturers can produce a rather homogeneous presentation of the domain to an uninitiated audience. To the best of our knowledgde, nothing of this kind had never been tempted so far. It seemed to us that it was the good time for doing it, both . because the interest of applied mathematicians into the world of computational chemistry has exponentially increased in the past few years, and because the community of chemists feels more and more concerned with the numerical issues. Indeed, in the early years of Quantum Chemistry, the pioneers (Coulson, Mac Weeny, just to quote two of them) used to solve fundamental equations modelling toy systems which could be simply numerically handled in view of their very limited size. The true difficulty arose with the need to model larger systems while possibly taking into account their interaction with their environment. Hand calculations were no longer possible, and computing science came into the picture.Chemistry.Chemoinformatics.Chemometrics.Chemistry, Physical and theoretical.Number theory.Quantum physics.Quantum computers.Spintronics.Chemistry.Theoretical and Computational Chemistry.Math. Applications in Chemistry.Computer Applications in Chemistry.Quantum Information Technology, Spintronics.Quantum Physics.Number Theory.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-57237-1URN:ISBN:9783642572371

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