S
Sebastian T. Ohlmann
Researcher at Max Planck Society
Publications - 2
Citations - 298
Sebastian T. Ohlmann is an academic researcher from Max Planck Society. The author has contributed to research in topics: Quantum dynamics. The author has an hindex of 1, co-authored 2 publications receiving 113 citations.
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Octopus, a computational framework for exploring light-driven phenomena and quantum dynamics in extended and finite systems
Nicolas Tancogne-Dejean,Micael J. T. Oliveira,Xavier Andrade,Heiko Appel,Carlos H. Borca,Carlos H. Borca,Guillaume Le Breton,Florian Buchholz,Andrea Castro,Stefano Corni,Alfredo A. Correa,Umberto De Giovannini,Alain Delgado,F. G. Eich,Johannes Flick,Gabriel Gil,Adrián Gomez,Nicole Helbig,Hannes Hübener,René Jestädt,Joaquim Jornet-Somoza,Ask Hjorth Larsen,Irina V. Lebedeva,M. Lüders,Miguel A. L. Marques,Sebastian T. Ohlmann,Silvio Pipolo,Markus Rampp,Carlo Andrea Rozzi,David A. Strubbe,Shunsuke A. Sato,Shunsuke A. Sato,Christian Schäfer,Iris Theophilou,Alicia Rae Welden,Angel Rubio,Angel Rubio +36 more
TL;DR: The Octopus project as mentioned in this paper provides a unique framework that allows us to describe non-equilibrium phenomena in molecular complexes, low dimensional materials, and extended systems by accounting for electronic, ionic, and photon quantum mechanical effects within a generalized time-dependent density functional theory.
Journal ArticleDOI
Octopus, a computational framework for exploring light-driven phenomena and quantum dynamics in extended and finite systems
Nicolas Tancogne-Dejean,Micael J. T. Oliveira,Xavier Andrade,Heiko Appel,Carlos H. Borca,Carlos H. Borca,Guillaume Le Breton,Florian Buchholz,Andrea Castro,Stefano Corni,Alfredo A. Correa,Umberto De Giovannini,Alain Delgado,F. G. Eich,Johannes Flick,Gabriel Gil,Adrián Gomez,Nicole Helbig,Hannes Hübener,René Jestädt,Joaquim Jornet-Somoza,Ask Hjorth Larsen,Irina V. Lebedeva,M. Lüders,Miguel A. L. Marques,Sebastian T. Ohlmann,Silvio Pipolo,Markus Rampp,Carlo Andrea Rozzi,David A. Strubbe,Shunsuke A. Sato,Shunsuke A. Sato,Christian Schäfer,Iris Theophilou,Alicia Rae Welden,Angel Rubio,Angel Rubio +36 more
TL;DR: The major theoretical developments to address ultrafast light-driven processes, such as the new theoretical framework of quantum electrodynamics density-functional formalism for the description of novel light-matter hybrid states are described.