about
Static correlation beyond the random phase approximation: dissociating H2 with the Bethe-Salpeter equation and time-dependent GW.The atomic simulation environment-a Python library for working with atoms.Density functional theory based screening of ternary alkali-transition metal borohydrides: a computational material design project.Interlayer Excitons and Band Alignment in MoS2/hBN/WSe2 van der Waals Heterostructures.Electronic structure calculations with GPAW: a real-space implementation of the projector augmented-wave method.Memory effects in nonadiabatic molecular dynamics at metal surfaces.Quantum corrected Langevin dynamics for adsorbates on metal surfaces interacting with hot electrons.Dispersive and covalent interactions between graphene and metal surfaces from the random phase approximation.Defect-Tolerant Monolayer Transition Metal DichalcogenidesSimple Screened Hydrogen Model of Excitons in Two-Dimensional MaterialsExcitons in van der Waals heterostructures: The important role of dielectric screeningImproved description of metal oxide stability: Beyond the random phase approximation with renormalized kernelsAccurate Ground-State Energies of Solids and Molecules from Time-Dependent Density-Functional TheoryBeyond the random phase approximation: Improved description of short-range correlation by a renormalized adiabatic local density approximationHow dielectric screening in two-dimensional crystals affects the convergence of excited-state calculations: Monolayer MoS2Quasiparticle GW calculations for solids, molecules, and two-dimensional materialsRandom phase approximation applied to solids, molecules, and graphene-metal interfaces: From van der Waals to covalent bondingComputational screening of perovskite metal oxides for optimal solar light captureExtending the random-phase approximation for electronic correlation energies: The renormalized adiabatic local density approximationHot-electron-assisted femtochemistry at surfaces: A time-dependent density functional theory approachDefect Chemistry and Electrical Conductivity of Sm-Doped La1–xSrxCoO3−δ for Solid Oxide Fuel CellsBeyond the RPA and GW methods with adiabatic xc-kernels for accurate ground state and quasiparticle energiesOrigin of power laws for reactions at metal surfaces mediated by hot electronsSite specificity in femtosecond laser desorption of neutral H atoms from graphite(0001)Classifying the Electronic and Optical Properties of Janus MonolayersFirst principles Heisenberg models of 2D magnetic materials: the importance of quantum corrections to the exchange coupling
P50
Q35160345-52ACF936-D7CB-4943-A951-1DF223B30FA4Q36316150-0816E10A-021D-4DD6-AA33-A9069C23D21CQ45935577-B38BED22-64FC-488F-9E5D-48DD99B4A205Q48050900-38E7A536-F705-4267-936B-10F9CA93A5FFQ50525264-07DE0149-5F98-4B59-8896-40EB2FE1887BQ51034253-5DDFDCFD-FA45-4CCB-A72E-5C2B6EA263A3Q51677601-0FAE4EDA-C555-47FC-9F99-0C27F08DE758Q54129345-2B33AAEC-A8B0-4D82-BBAF-B2EAC3355F26Q55084742-9B928F6A-3F46-49CC-AE3D-E82B862992B3Q55084751-C4CDB8C7-1618-4936-ACCC-1056C728E1DEQ55084762-E6B8E991-8171-44B1-B900-DE469F632232Q55084766-C99D8058-9B02-48BA-B3A4-E3A2AB154081Q55084791-DACAB842-1868-405C-9189-AE282705BD30Q55084807-E4C45694-D0B5-4C8F-A61B-FF94A703427CQ55084815-74FBF0B5-F830-4E0A-A593-DB0FB902D7BEQ55084819-6D374C66-3BFC-4142-A4CC-D3CA43EF1A26Q55084821-9F83C7C7-F61A-4F0C-86C1-6766F951334CQ55084829-6BC0E533-050D-40E9-B7DD-7BDFE8DD485BQ57496221-D9AB11CB-47B8-4546-9341-7ECC27FFE834Q57496287-7DF0ECE7-D1F2-44DA-991A-5F214E3EEB66Q57640744-1B04B5A9-7208-47DF-BC2D-46D81D731C86Q80446565-D212CED4-B646-4680-83F5-0DAC939F0564Q83995001-49121B4F-F283-46BA-AE10-41C5C2032323Q85081194-202EE984-22E3-4DFE-8E0D-5B2683A0237FQ90712594-D6F7BE2E-902A-461D-A9B9-79A5B1C2E8CEQ91539787-30335BC3-BDCE-4C3B-A798-D84291398809
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Thomas Olsen
@ast
Thomas Olsen
@en
Thomas Olsen
@es
Thomas Olsen
@nl
Thomas Olsen
@sl
type
label
Thomas Olsen
@ast
Thomas Olsen
@en
Thomas Olsen
@es
Thomas Olsen
@nl
Thomas Olsen
@sl
prefLabel
Thomas Olsen
@ast
Thomas Olsen
@en
Thomas Olsen
@es
Thomas Olsen
@nl
Thomas Olsen
@sl
P1053
L-1416-2014
P106
P21
P31
P3829
P3835
thomas-olsen3
P496
0000-0001-6256-9284