Hjorth Larsen, Ask
Jørgen Mortensen, Jens
Blomqvist, Jakob
Castelli, Ivano E
Christensen, Rune
Dułak, Marcin
Friis, Jesper
Groves, Michael N
Hammer, Bjørk
Hargus, Cory
Hermes, Eric D
Jennings, Paul C
Bjerre Jensen, Peter
Kermode, James
Kitchin, John R
Leonhard Kolsbjerg, Esben
Kubal, Joseph
Kaasbjerg, Kristen
Lysgaard, Steen
Bergmann Maronsson, Jón
Maxson, Tristan
Olsen, Thomas
Pastewka, Lars
Peterson, Andrew
Rostgaard, Carsten
Schiøtz, Jakob
Schütt, Ole
Strange, Mikkel
Thygesen, Kristian S
Vegge, Tejs
Vilhelmsen, Lasse
Walter, Michael
Zeng, Zhenhua
Jacobsen, Karsten W
Funding for this research was provided by:
Villum Fonden (grant no 9455)
Horizon 2020 Framework Programme (Grant no 676580)
Horizon 2020 Framework Programme (NOMAD)
Horizon 2020 Framework Programme (a European Center of Excellence)
Deutsche Forschungsgemeinschaft (Grant PA2023/2)
UK Engineering and Physical Sciences Research Council (EP/L014742/1)
UK Engineering and Physical Sciences Research Council (EP/P002188/1)
UK Engineering and Physical Sciences Research Council (EP/L027682/1)
Journal title: Journal of Physics: Condensed Matter
Article type: rev
Article title: The atomic simulation environment—a Python library for working with atoms
Copyright information: © 2017 IOP Publishing Ltd
Publication dates
Date received: 2016-12-13
Date accepted: 2017-03-21
Online publication date: 2017-06-07