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OpenMolcas: From Source Code to Insight.
Fdez Galván, Ignacio; Vacher, Morgane; Alavi, Ali; Angeli, Celestino; Aquilante, Francesco; Autschbach, Jochen; Bao, Jie J; Bokarev, Sergey I; Bogdanov, Nikolay A; Carlson, Rebecca K; Chibotaru, Liviu F; Creutzberg, Joel; Dattani, Nike; Delcey, Mickaël G; Dong, Sijia S; Dreuw, Andreas; Freitag, Leon; Frutos, Luis Manuel; Gagliardi, Laura; Gendron, Frédéric; Giussani, Angelo; González, Leticia; Grell, Gilbert; Guo, Meiyuan; Hoyer, Chad E; Johansson, Marcus; Keller, Sebastian; Knecht, Stefan; Kovacevic, Goran; Källman, Erik; Li Manni, Giovanni; Lundberg, Marcus; Ma, Yingjin; Mai, Sebastian; Malhado, João Pedro; Malmqvist, Per Åke; Marquetand, Philipp; Mewes, Stefanie A; Norell, Jesper; Olivucci, Massimo; Oppel, Markus; Phung, Quan Manh; Pierloot, Kristine; Plasser, Felix; Reiher, Markus; Sand, Andrew M; Schapiro, Igor; Sharma, Prachi; Stein, Christopher J; Sørensen, Lasse Kragh.
Afiliação
  • Fdez Galván I; Department of Chemistry - Ångström Laboratory , Uppsala University , P.O. Box 538, SE-751 21 Uppsala , Sweden.
  • Vacher M; Department of Chemistry - BMC , Uppsala University , P.O. Box 576, SE-751 23 Uppsala , Sweden.
  • Alavi A; Department of Chemistry - Ångström Laboratory , Uppsala University , P.O. Box 538, SE-751 21 Uppsala , Sweden.
  • Angeli C; Max Planck Institut für Festkörperforschung , Heisenbergstraße 1 , 70569 Stuttgart , Germany.
  • Aquilante F; Dipartimento di Scienze Chimiche e Farmaceutiche , Università di Ferrara , Via Luigi Borsari 46 , 44121 Ferrara , Italy.
  • Autschbach J; Département de Chimie Physique , Université de Genève , 30 quai Ernest-Ansermet , CH-1211 Genève 4 , Switzerland.
  • Bao JJ; Department of Chemistry , University at Buffalo, State University of New York , Buffalo , New York 14260-3000 , United States.
  • Bokarev SI; Department of Chemistry, Chemical Theory Center, and Minnesota Supercomputing Institute , University of Minnesota , Minneapolis , Minnesota 55455-0431 , United States.
  • Bogdanov NA; Institut für Physik , Universität Rostock , Albert-Einstein-Straße 23-24 , 18059 Rostock , Germany.
  • Carlson RK; Max Planck Institut für Festkörperforschung , Heisenbergstraße 1 , 70569 Stuttgart , Germany.
  • Chibotaru LF; Department of Chemistry, Chemical Theory Center, and Minnesota Supercomputing Institute , University of Minnesota , Minneapolis , Minnesota 55455-0431 , United States.
  • Creutzberg J; Theory of Nanomaterials Group , University of Leuven , Celestijnenlaan 200F , Leuven 3001 , Belgium.
  • Dattani N; Department of Physics, AlbaNova University Center , Stockholm University , SE-106 91 Stockholm , Sweden.
  • Delcey MG; Division of Theoretical Chemistry, Kemicentrum , Lund University , P.O. Box 124, SE-221 00 Lund , Sweden.
  • Dong SS; Harvard Smithsonian Center for Astrophysics , Cambridge , Massachusetts 02138 , United States.
  • Dreuw A; Department of Chemistry - Ångström Laboratory , Uppsala University , P.O. Box 538, SE-751 21 Uppsala , Sweden.
  • Freitag L; Department of Chemistry, Chemical Theory Center, and Minnesota Supercomputing Institute , University of Minnesota , Minneapolis , Minnesota 55455-0431 , United States.
  • Frutos LM; Interdisciplinary Center for Scientific Computing , Heidelberg University , Im Neuenheimer Feld 205 A , 69120 Heidelberg , Germany.
  • Gagliardi L; Laboratorium für Physikalische Chemie , ETH Zürich , Vladimir-Prelog-Weg 2 , 8093 Zürich , Switzerland.
  • Gendron F; Departamento de Química Analítica, Química Física e Ingeniería Química, and Instituto de Investigación Química "Andrés M. del Río" , Universidad de Alcalá , E-28871 Alcalá de Henares, Madrid , Spain.
  • Giussani A; Department of Chemistry, Chemical Theory Center, and Minnesota Supercomputing Institute , University of Minnesota , Minneapolis , Minnesota 55455-0431 , United States.
  • González L; Department of Chemistry , University at Buffalo, State University of New York , Buffalo , New York 14260-3000 , United States.
  • Grell G; Department of Chemistry , University College London , 20 Gordon Street , London WC1H 0AJ , United Kingdom.
  • Guo M; Instituto de Ciencia Molecular , Universitat de València , Apartado 22085, ES-46071 Valencia , Spain.
  • Hoyer CE; Institute of Theoretical Chemistry, Faculty of Chemistry , University of Vienna , Währinger Straße 17 , 1090 Vienna , Austria.
  • Johansson M; Institut für Physik , Universität Rostock , Albert-Einstein-Straße 23-24 , 18059 Rostock , Germany.
  • Keller S; Department of Chemistry - Ångström Laboratory , Uppsala University , P.O. Box 538, SE-751 21 Uppsala , Sweden.
  • Knecht S; Department of Chemistry, Chemical Theory Center, and Minnesota Supercomputing Institute , University of Minnesota , Minneapolis , Minnesota 55455-0431 , United States.
  • Kovacevic G; Division of Theoretical Chemistry, Kemicentrum , Lund University , P.O. Box 124, SE-221 00 Lund , Sweden.
  • Källman E; Laboratorium für Physikalische Chemie , ETH Zürich , Vladimir-Prelog-Weg 2 , 8093 Zürich , Switzerland.
  • Li Manni G; Laboratorium für Physikalische Chemie , ETH Zürich , Vladimir-Prelog-Weg 2 , 8093 Zürich , Switzerland.
  • Lundberg M; Division of Materials Physics , Ruder Boskovic Institute , P.O.B. 180, Bijenicka 54 , HR-10002 Zagreb , Croatia.
  • Ma Y; Department of Chemistry - Ångström Laboratory , Uppsala University , P.O. Box 538, SE-751 21 Uppsala , Sweden.
  • Mai S; Max Planck Institut für Festkörperforschung , Heisenbergstraße 1 , 70569 Stuttgart , Germany.
  • Malhado JP; Department of Chemistry - Ångström Laboratory , Uppsala University , P.O. Box 538, SE-751 21 Uppsala , Sweden.
  • Malmqvist PÅ; Laboratorium für Physikalische Chemie , ETH Zürich , Vladimir-Prelog-Weg 2 , 8093 Zürich , Switzerland.
  • Marquetand P; Institute of Theoretical Chemistry, Faculty of Chemistry , University of Vienna , Währinger Straße 17 , 1090 Vienna , Austria.
  • Mewes SA; Department of Chemistry , Imperial College London , London SW7 2AZ , United Kingdom.
  • Norell J; Division of Theoretical Chemistry, Kemicentrum , Lund University , P.O. Box 124, SE-221 00 Lund , Sweden.
  • Olivucci M; Institute of Theoretical Chemistry, Faculty of Chemistry , University of Vienna , Währinger Straße 17 , 1090 Vienna , Austria.
  • Oppel M; Interdisciplinary Center for Scientific Computing , Heidelberg University , Im Neuenheimer Feld 205 A , 69120 Heidelberg , Germany.
  • Phung QM; Centre for Theoretical Chemistry and Physics, The New Zealand Institute for Advanced Study (NZIAS) , Massey University Albany , Private Bag 102904, Auckland 0632 , New Zealand.
  • Pierloot K; Department of Physics, AlbaNova University Center , Stockholm University , SE-106 91 Stockholm , Sweden.
  • Plasser F; Department of Biotechnology, Chemistry and Pharmacy , University of Siena , via A. Moro 2 , 53100 Siena , Italy.
  • Reiher M; Department of Chemistry , Bowling Green State University , Bowling Green , Ohio 43403 , United States.
  • Sand AM; USIAS and Institut de Physique et Chimie des Matériaux de Strasbourg , Université de Strasbourg-CNRS , 67034 Strasbourg , France.
  • Schapiro I; Institute of Theoretical Chemistry, Faculty of Chemistry , University of Vienna , Währinger Straße 17 , 1090 Vienna , Austria.
  • Sharma P; Department of Chemistry , KU Leuven , Celestijnenlaan 200F , Leuven 3001 , Belgium.
  • Stein CJ; Department of Chemistry , KU Leuven , Celestijnenlaan 200F , Leuven 3001 , Belgium.
  • Sørensen LK; Department of Chemistry , Loughborough University , Loughborough LE11 3TU , United Kingdom.
J Chem Theory Comput ; 15(11): 5925-5964, 2019 Nov 12.
Article em En | MEDLINE | ID: mdl-31509407
ABSTRACT
In this Article we describe the OpenMolcas environment and invite the computational chemistry community to collaborate. The open-source project already includes a large number of new developments realized during the transition from the commercial MOLCAS product to the open-source platform. The paper initially describes the technical details of the new software development platform. This is followed by brief presentations of many new methods, implementations, and features of the OpenMolcas program suite. These developments include novel wave function methods such as stochastic complete active space self-consistent field, density matrix renormalization group (DMRG) methods, and hybrid multiconfigurational wave function and density functional theory models. Some of these implementations include an array of additional options and functionalities. The paper proceeds and describes developments related to explorations of potential energy surfaces. Here we present methods for the optimization of conical intersections, the simulation of adiabatic and nonadiabatic molecular dynamics, and interfaces to tools for semiclassical and quantum mechanical nuclear dynamics. Furthermore, the Article describes features unique to simulations of spectroscopic and magnetic phenomena such as the exact semiclassical description of the interaction between light and matter, various X-ray processes, magnetic circular dichroism, and properties. Finally, the paper describes a number of built-in and add-on features to support the OpenMolcas platform with postcalculation analysis and visualization, a multiscale simulation option using frozen-density embedding theory, and new electronic and muonic basis sets.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: J Chem Theory Comput Ano de publicação: 2019 Tipo de documento: Article
Texto completo
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XML
PubMed Links
Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: J Chem Theory Comput Ano de publicação: 2019 Tipo de documento: Article