about
Systematic pseudopotentials from reference eigenvalue sets for DFT calculations: Pseudopotential files.Discovery of stable skyrmionic state in ferroelectric nanocomposites.First-principles-based effective Hamiltonian simulations of bulks and films made of lead-free Ba(Zr,Ti)O3 relaxor ferroelectrics.Designing lead-free antiferroelectrics for energy storage.Corrigendum: Microscopic origins of the large piezoelectricity of leadfree (Ba,Ca)(Zr,Ti)O3.A simple law governing coupled magnetic orders in perovskites.Electronic properties of electrical vortices in ferroelectric nanocomposites from large-scale ab initio computations.Effect of central mode on the dielectric tunability of ferroelectrics near room temperature: a first-principle-based study.Photostriction and elasto-optic response in multiferroics and ferroelectrics from first principles.Vacancies and holes in bulk and at 180° domain walls in lead titanate.Emergent Berezinskii-Kosterlitz-Thouless Phase in Low-Dimensional Ferroelectrics.Unusual phase transitions in ferroelectric nanodisks and nanorods.Electric-field-induced paths in multiferroic BiFeO3 from atomistic simulations.Predicting a ferrimagnetic phase of Zn(2)FeOsO(6) with strong magnetoelectric coupling.Creating multiferroics with large tunable electrical polarization from paraelectric rare-earth orthoferrites.Fluctuations and Topological Defects in Proper Ferroelectric Crystals.Special quasirandom structures for perovskite solid solutions.Simulating the Radio-Frequency Dielectric Response of Relaxor Ferroelectrics: Combination of Coarse-Grained Hamiltonians and Kinetic Monte Carlo Simulations.Photostriction in Ferroelectrics from Density Functional Theory.Atomistic molecular dynamic simulations of multiferroics.Topological Point Defects in Relaxor Ferroelectrics.Frustration and Self-Ordering of Topological Defects in Ferroelectrics.Large Elasto-Optic Effect in Epitaxial PbTiO(3) Films.Predicted energetics and properties of rare-earth ferrites films grown on cubic (111)- and hexagonal (0001)-oriented substrates.Anomalous properties in ferroelectrics induced by atomic ordering.Predicted pressure-induced spin and electronic transition in double perovskite R2CoMnO6 (R = rare-earth ion).Giant Negative Electrocaloric Effect in Antiferroelectric La-Doped Pb(ZrTi)O3 Thin Films Near Room Temperature.Revisiting galvanomagnetic effects in conducting ferromagnets.Prediction of novel interface-driven spintronic effects.Prediction of a novel magnetoelectric switching mechanism in multiferroics.Properties of epitaxial films made of relaxor ferroelectrics.Toy model for uncommon spin-orbit-driven spin-torque terms.Electric-field-induced domain evolution in ferroelectric ultrathin films.Quantum anomalous Hall effect in graphene proximity coupled to an antiferromagnetic insulator.Effects of a rotating electric field on the properties of epitaxial (001) Pb(Zr,Ti)O3 ultrathin film: a first-principles-based study.Interface reconstruction with emerging charge ordering in hexagonal manganite.Effect of chemical pressure, misfit strain and hydrostatic pressure on structural and magnetic behaviors of rare-earth orthochromatesHigh-Pressure Effect onPbTiO3: An Investigation by Raman and X-Ray Scattering up to 63 GPaGeometric frustration in compositionally modulated ferroelectricsElectronic and magnetic properties of MnN versus MnAs
P50
Q35875814-156012B1-9FD5-431D-A5F0-0F1C3E7193EEQ36145904-4CE6B5BE-BB81-4AF8-93F6-6D0D20DC5B92Q38488182-337A466C-D0EC-46AE-914F-22F6D8F56FAFQ38677535-C20B2A79-C43C-40E6-A4C7-A8889C2972FCQ42629618-E17F151F-7828-4364-86F9-411C7EAB2973Q44591022-D6EC7607-8A08-4307-A11E-2003729BAC1CQ46333105-3623C6C5-50E0-443C-A4E9-C6392D44960BQ46429651-D23A0BBE-0F21-4A00-ADB9-F91A3241DF50Q47201168-1C5E699F-458F-4DF9-A71F-98F9D979C5E0Q47437664-801F2692-EEA0-4524-8C52-94E484CBD89BQ49830876-66613709-3803-42E0-ABFD-3224F7FB2185Q50138529-8CFD89A2-624B-4B67-B909-E88BFC033353Q50324141-BF6C9463-9FD8-4584-A082-70C55BEA1597Q50739028-BAED5BC4-C3FF-4C79-A36B-86A3E6BA8FC6Q50773987-BBD4BBC4-AE77-491B-9DB0-6E733812A453Q50907267-89649DD8-71A9-4C9D-85DF-6A474862AF20Q51155346-41EFE618-62E1-4B3E-86E8-2D07EF8DF764Q51272818-1AAFFB54-933C-4E93-9F66-D3D409750643Q51272822-2AB619AC-4223-4429-AE0E-139025582A67Q51318298-A60C922D-3BCC-4956-9E91-7F5D86430A1FQ51383898-C19954F6-7658-4C18-B603-E85EE99BB2F1Q51402480-9BFE08D2-A6C8-41BD-8775-9B832E0D1D61Q51562653-75F609E8-7E89-4E58-AB11-BB0927A5A4EBQ51644707-067E33CA-A641-4989-B0D8-22AF016A5E91Q52017510-F5845F2F-B589-4722-88D3-3BD3D6F34389Q53232360-8B3923DC-3C33-4668-B1C3-787CD8961D43Q53265305-243AB37B-A20A-4882-8870-E22E8F767431Q53419995-F441A083-1EFB-4A3E-B6AB-6D33EE9CB79FQ53515695-D846FFCE-2686-4D6D-976A-2CE5FE7BAA64Q53610011-457B0AD2-3825-4B53-9649-B6EF2AEF9FB1Q53628661-9A26EE0A-6732-4FFF-8F92-6C3669280015Q53757596-112D513E-8FDD-4069-AD6B-49105491C920Q54076908-5BCCE888-E496-4769-B2FF-5A63654380F8Q54234133-31CEB2F6-DF91-4F44-B9FB-313C3BFEBA2CQ54490404-B90C2BBF-0E46-42C6-8455-CE1A81563448Q54951772-E5FF5A2B-D598-4CC2-AA36-A17FDA34DC2FQ57125269-9C0942B7-E37C-4A4B-A99B-6485686505D2Q57878433-7B69CF55-41DD-4313-86D7-8131037F73D2Q59048539-F98A5395-D66A-4631-9BA0-D5E971FA3B92Q59433605-970A683F-5D5D-4D5E-8906-DBF0E870C0B7
P50
description
nano-scale physicist at University of Arkansas
@en
natuurkundige
@nl
name
Laurent Bellaiche
@ast
Laurent Bellaiche
@en
Laurent Bellaiche
@es
Laurent Bellaiche
@nl
type
label
Laurent Bellaiche
@ast
Laurent Bellaiche
@en
Laurent Bellaiche
@es
Laurent Bellaiche
@nl
prefLabel
Laurent Bellaiche
@ast
Laurent Bellaiche
@en
Laurent Bellaiche
@es
Laurent Bellaiche
@nl
P214
P106
P214
P31
P7859
viaf-313312409