S
Sergei Prokhorenko
Researcher at University of Arkansas
Publications - 57
Citations - 1756
Sergei Prokhorenko is an academic researcher from University of Arkansas. The author has contributed to research in topics: Ferroelectricity & Topological defect. The author has an hindex of 16, co-authored 39 publications receiving 890 citations. Previous affiliations of Sergei Prokhorenko include University of Liège & École Centrale Paris.
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The Abinit project: Impact, environment and recent developments
Xavier Gonze,Bernard Amadon,Gabriel Antonius,Frédéric Arnardi,Lucas Baguet,Lucas Baguet,Jean-Michel Beuken,Jordan Bieder,François Bottin,J. Bouchet,Eric Bousquet,Nils Brouwer,Fabien Bruneval,Guillaume Brunin,Théo Cavignac,Jean-Baptiste Charraud,Wei Chen,Michel Côté,Stefaan Cottenier,Jules Denier,Grégory Geneste,Philippe Ghosez,Matteo Giantomassi,Yannick Gillet,Olivier Gingras,D. R. Hamann,Geoffroy Hautier,Xu He,Nicole Helbig,Natalie Holzwarth,Yongchao Jia,F. Jollet,William Lafargue-Dit-Hauret,Kurt Lejaeghere,Miguel A. L. Marques,Alexandre Martin,Cyril Martins,Henrique Pereira Coutada Miranda,Francesco Naccarato,Kristin A. Persson,Kristin A. Persson,Guido Petretto,Valentin Planes,Yann Pouillon,Sergei Prokhorenko,Fabio Ricci,Gian-Marco Rignanese,Alessandra Romero,Michael Marcus Schmitt,Marc Torrent,Michiel van Setten,Michiel van Setten,Benoit Van Troeye,Matthieu J. Verstraete,G. Zérah,Josef W. Zwanziger +55 more
TL;DR: An analysis of the impact that Abinit has had, through for example the bibliometric indicators of the 2009 publication, and the new capabilities of abinit that have been implemented during the last three years are covered, complementing a recent update of the2009 article published in 2016.
Journal ArticleDOI
ABINIT: Overview and focus on selected capabilities.
Alessandra Romero,Douglas C. Allan,Bernard Amadon,Gabriel Antonius,Thomas Applencourt,Lucas Baguet,Jordan Bieder,François Bottin,J. Bouchet,Eric Bousquet,Fabien Bruneval,Guillaume Brunin,Damien Caliste,Michel Côté,Jules Denier,Cyrus E. Dreyer,Cyrus E. Dreyer,Philippe Ghosez,Matteo Giantomassi,Yannick Gillet,Olivier Gingras,D. R. Hamann,Geoffroy Hautier,F. Jollet,Gérald Jomard,Alexandre Martin,Henrique Pereira Coutada Miranda,Francesco Naccarato,Guido Petretto,Nicholas A. Pike,Valentin Planes,Sergei Prokhorenko,Tonatiuh Rangel,Fabio Ricci,Gian-Marco Rignanese,Miquel Royo,Massimiliano Stengel,Massimiliano Stengel,Marc Torrent,Michiel van Setten,Michiel van Setten,Benoit Van Troeye,Benoit Van Troeye,Matthieu J. Verstraete,Julia Wiktor,Josef W. Zwanziger,Xavier Gonze,Xavier Gonze +47 more
TL;DR: This article focuses on selected capabilities that might not be present in the majority of electronic structure packages either among planewave codes or, in general, treatment of strongly correlated materials using DMFT.
Journal ArticleDOI
Discovery of stable skyrmionic state in ferroelectric nanocomposites
TL;DR: It is demonstrated, via the use of a first-principles-based framework, that skyrmionic configuration of polarization can be extrinsically stabilized in ferroelectric nanocomposites.
Journal ArticleDOI
Topological spin texture in Janus monolayers of the chromium trihalides Cr(I, X ) 3
Changsong Xu,Junsheng Feng,Junsheng Feng,Sergei Prokhorenko,Yousra Nahas,Hongjun Xiang,Hongjun Xiang,Laurent Bellaiche +7 more
TL;DR: In this article, the Dzyaloshinskii-Moriya interactions are used to identify strong enough DMIs, which leads to not only helical cycloid phases, but also to topologically nontrivial states, such as the intrinsic domain wall skyrmions in the Janus monolayers, and the magnetic-field induced bimerons in the top-layer Br or Cl atoms.
Journal ArticleDOI
Possible Kitaev Quantum Spin Liquid State in 2D Materials with S = 3 / 2
Changsong Xu,Junsheng Feng,Junsheng Feng,Mitsuaki Kawamura,Youhei Yamaji,Yousra Nahas,Sergei Prokhorenko,Yang Qi,Yang Qi,Hongjun Xiang,Hongjun Xiang,Laurent Bellaiche +11 more
TL;DR: The investigation of the Kitaev physics and possible Kitaeva QSL state in epitaxially strained Cr-based monolayers, such as CrSiTe_{3}, that rather possess a S=3/2 spin value is reported, which extends the playground of Kitaov physics and QSLs to 3d transition metal compounds.