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MOLCAS/OpenMolcas is an ab initio electronic structure program providing a large set of computational methods from Hartree-Fock and density functional theory to various implementations of multiconfigurational theory. This article provides a comprehensive overview of the main features of the code, specifically reviewing the use of the code in previously reported chemical applications as well as more recent applications including the calculation of magnetic properties from optimized density matrix renormalization group wave functions.

Modern quantum chemistry with [open]molcas / Aquilante F.; Autschbach J.; Baiardi A.; Battaglia S.; Borin V.A.; Chibotaru L.F.; Conti I.; De Vico L.; Delcey M.; Galvan I.F.; Ferre N.; Freitag L.; Garavelli M.; Gong X.; Knecht S.; Larsson E.D.; Lindh R.; Lundberg M.; Malmqvist P.A.; Nenov A.; Norell J.; Odelius M.; Olivucci M.; Pedersen T.B.; Pedraza-Gonzalez L.; Phung Q.M.; Pierloot K.; Reiher M.; Schapiro I.; Segarra-Marti J.; Segatta F.; Seijo L.; Sen S.; Sergentu D.-C.; Stein C.J.; Ungur L.; Vacher M.; Valentini A.; Veryazov V.. - In: THE JOURNAL OF CHEMICAL PHYSICS. - ISSN 0021-9606. - STAMPA. - 152:(2020), pp. 214117.1-214117.25. [10.1063/5.0004835]

Modern quantum chemistry with [open]molcas

Conti I.;Garavelli M.;Nenov A.;Segatta F.;
2020

Abstract

MOLCAS/OpenMolcas is an ab initio electronic structure program providing a large set of computational methods from Hartree-Fock and density functional theory to various implementations of multiconfigurational theory. This article provides a comprehensive overview of the main features of the code, specifically reviewing the use of the code in previously reported chemical applications as well as more recent applications including the calculation of magnetic properties from optimized density matrix renormalization group wave functions.
2020
Modern quantum chemistry with [open]molcas / Aquilante F.; Autschbach J.; Baiardi A.; Battaglia S.; Borin V.A.; Chibotaru L.F.; Conti I.; De Vico L.; Delcey M.; Galvan I.F.; Ferre N.; Freitag L.; Garavelli M.; Gong X.; Knecht S.; Larsson E.D.; Lindh R.; Lundberg M.; Malmqvist P.A.; Nenov A.; Norell J.; Odelius M.; Olivucci M.; Pedersen T.B.; Pedraza-Gonzalez L.; Phung Q.M.; Pierloot K.; Reiher M.; Schapiro I.; Segarra-Marti J.; Segatta F.; Seijo L.; Sen S.; Sergentu D.-C.; Stein C.J.; Ungur L.; Vacher M.; Valentini A.; Veryazov V.. - In: THE JOURNAL OF CHEMICAL PHYSICS. - ISSN 0021-9606. - STAMPA. - 152:(2020), pp. 214117.1-214117.25. [10.1063/5.0004835]
Aquilante F.; Autschbach J.; Baiardi A.; Battaglia S.; Borin V.A.; Chibotaru L.F.; Conti I.; De Vico L.; Delcey M.; Galvan I.F.; Ferre N.; Freitag L.; Garavelli M.; Gong X.; Knecht S.; Larsson E.D.; Lindh R.; Lundberg M.; Malmqvist P.A.; Nenov A.; Norell J.; Odelius M.; Olivucci M.; Pedersen T.B.; Pedraza-Gonzalez L.; Phung Q.M.; Pierloot K.; Reiher M.; Schapiro I.; Segarra-Marti J.; Segatta F.; Seijo L.; Sen S.; Sergentu D.-C.; Stein C.J.; Ungur L.; Vacher M.; Valentini A.; Veryazov V.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/785774
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