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ORCIDComputer Physics Communications, Volume 240
Volume 240, July 2019
- Stephan Fritzsche
:
A fresh computational approach to atomic structures, processes and cascades. 1-14 - Sean Benson, Konstantin Gizdov:
NNDrone: A toolkit for the mass application of machine learning in High Energy Physics. 15-20 - Weile Jia, Lin Lin:
Fast real-time time-dependent hybrid functional calculations with the parallel transport gauge and the adaptively compressed exchange formulation. 21-29 - Guillaume St-Onge, Jean-Gabriel Young, Laurent Hébert-Dufresne, Louis J. Dubé:
Efficient sampling of spreading processes on complex networks using a composition and rejection algorithm. 30-37 - Stefan Chmiela, Huziel Enoc Sauceda Felix, Igor Poltavsky, Klaus-Robert Müller, Alexandre Tkatchenko:
sGDML: Constructing accurate and data efficient molecular force fields using machine learning. 38-45 - Tim Verbrugghe, José M. Domínguez, Corrado Altomare, Angelantonio Tafuni, Renato Vacondio, Peter Troch, Andreas Kortenhaus:
Non-linear wave generation and absorption using open boundaries within DualSPHysics. 46-59
- S. H. Zhang, Dominik Legut, Ruifeng Zhang:
PNADIS: An automated Peierls-Nabarro analyzer for dislocation core structure and slip resistance. 60-73 - Kishor Kumar Ramavarmaraja, Vladimir Loncar, Paulsamy Muruganandam, Sadhan K. Adhikari, Antun Balaz:
C and Fortran OpenMP programs for rotating Bose-Einstein condensates. 74-82 - Ryo Sato, Shigeo Kawata, Takahiro Karino, Ken Uchibori, Takuya Iinuma, Hiroki Katoh, Aleksandar I. Ogoyski:
Code O-SUKI: Simulation of direct-drive fuel target implosion in heavy ion inertial fusion. 83-100 - Meisam Farzalipour Tabriz, Bálint Aradi, Thomas Frauenheim, Peter Deák:
SLABCC: Total energy correction code for charged periodic slab models. 101-105 - Gianluca Prandini, Mario Galante, Nicola Marzari, Paolo Umari:
SIMPLE code: Optical properties with optimal basis functions. 106-119 - Sophia Borowka, Gudrun Heinrich, Stephan Jahn, Stephen P. Jones, Matthias Kerner, Johannes Schlenk:
A GPU compatible quasi-Monte Carlo integrator interfaced to pySecDec. 120-137 - Thanh-Xuan H. Cao, Duy-Nhat Ly, Ngoc-Tram D. Hoang, Van-Hoang Le:
High-accuracy numerical calculations of the bound states of a hydrogen atom in a constant magnetic field with arbitrary strength. 138-151 - Leendert Hayen, N. Severijns:
Beta Spectrum Generator: High precision allowed β spectrum shapes. 152-164 - Francesc Salvat, José M. Fernández-Varea:
radial: A Fortran subroutine package for the solution of the radial Schrödinger and Dirac wave equations. 165-177 - Jerzy Goraus:
Non-linear least squares fit of specific heat data within the Schotte-Schotte model using web page. 178-180 - Naoya Chikano, Kazuyoshi Yoshimi, Junya Otsuki, Hiroshi Shinaoka:
irbasis: Open-source database and software for intermediate-representation basis functions of imaginary-time Green's function. 181-188 - Jakob Ablinger, Johannes Blümlein, Mark Round, Carsten Schneider:
Numerical implementation of harmonic polylogarithms to weight w = 8. 189-201 - Pierre Arthuis, Thomas Duguet, Alexander Tichai, Raphaël-David Lasseri, Jean-Paul Ebran:
ADG: Automated generation and evaluation of many-body diagrams I. Bogoliubov many-body perturbation theory. 202-227
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