about
Controlled cobalt doping in biogenic magnetite nanoparticlesDirect experimental determination of the topological winding number of skyrmions in Cu2OSeO3.Probing the population of the spin-orbit split levels in the actinide 5f states.Atomic-Scale Interfacial Magnetism in Fe/Graphene Heterojunction.Rapid magnetosome formation shown by real-time x-ray magnetic circular dichroismOxidation Effects in Rare Earth Doped Topological Insulator Thin FilmsBiomineralization: linking the fossil record to the production of high value functional materials.Discontinuous properties of current-induced magnetic domain wall depinningFerrous iron formation following the co-aggregation of ferric iron and the Alzheimer's disease peptide β-amyloid (1-42).On the possibility of using X-ray Compton scattering to study magnetoelectrical properties of crystals.Room-temperature helimagnetism in FeGe thin films.Multidomain Skyrmion Lattice State in Cu2OSeO3.Spin pumping in ferromagnet-topological insulator-ferromagnet heterostructures.Evidence of redox-active iron formation following aggregation of ferrihydrite and the Alzheimer's disease peptide β-amyloid.Two million hours of science.Quantifying the critical thickness of electron hybridization in spintronics materials.Induced magnetic moment of Eu(3+) ions in GaN.Magnetostrictive thin films for microwave spintronics.Microbial engineering of nanoheterostructures: biological synthesis of a magnetically recoverable palladium nanocatalyst.Engineering biogenic magnetite for sustained Cr(VI) remediation in flow-through systems.Atomic-Scale Magnetism of Cr-Doped Bi2Se3 Thin Film Topological Insulators.Study of Dy-doped Bi₂Te₃: thin film growth and magnetic properties.Long-lived magnetism from solidification-driven convection on the pallasite parent body.Iron Biochemistry is Correlated with Amyloid Plaque Morphology in an Established Mouse Model of Alzheimer's Disease.Harnessing the extracellular bacterial production of nanoscale cobalt ferrite with exploitable magnetic properties.Optimizing Cr(VI) and Tc(VII) remediation through nanoscale biomineral engineering.Control of nanoparticle size, reactivity and magnetic properties during the bioproduction of magnetite by Geobacter sulfurreducens.Real-Space Observation of Skyrmionium in a Ferromagnet-Magnetic Topological Insulator Heterostructure.Biosynthesis and Characterization of Copper Nanoparticles Using Shewanella oneidensis: Application for Click Chemistry.Soft X-ray coherent scattering: instrument and methods at ESRF ID08.Probing the Buried Magnetic Interfaces.Anisotropic Absorption of Pure Spin Currents.A gas microstrip detector for XAS studies in the photon energy region 300-1500 eV.Hysteresis effect in FePd magnetic stripes studied by coherent soft X-ray resonant magnetic scattering.High-Mobility Sm-Doped Bi2 Se3 Ferromagnetic Topological Insulators and Robust Exchange Coupling.Identifying the electronic character and role of the Mn states in the valence band of (Ga,Mn)As.Soft-x-ray absorption spectroscopy of electron-doped (Nd,Sm)2-xCexCuO4- delta compounds.Spin polarization and magnetic dichroism in photoemission from core and valence states in localized magnetic systems. II. Emission from open shells.Manipulation of skyrmion motion by magnetic field gradients.Crossover from lattice to plasmonic polarons of a spin-polarised electron gas in ferromagnetic EuO.
P50
Q28705683-55FAA7B3-2426-4FF0-8B66-575C41EFFE76Q30840335-DC5C7D1C-7A47-4442-9081-5E1E94294978Q33227876-2BCC1B81-78AD-416C-958D-5B557722C5B8Q35818507-2851D900-A4B5-4978-A4E1-26F004C8EEF8Q36288696-04512B36-237C-40E1-BD2D-E9B39F63F515Q36666540-5B53E2B0-61F1-4E78-BF0A-8FC81967722DQ37156800-B36AADFA-67CA-415D-A781-1C53E1FD4812Q37266910-0F96E0FD-1B61-4F32-9C96-36E47CF7A01BQ37735395-CD44CE9E-862C-4BA2-A85D-19486DDBB6EAQ38674941-EB21E5BD-6688-47CF-83E7-977A4CD1EB16Q38748708-A7323F19-0A44-4273-AF70-044CA98AF3D2Q38882189-BC196162-1F20-4F09-9963-15F34161C469Q39053906-3D12342A-1367-4622-B37B-A5180F12C3C6Q39246791-D02A5FBB-99C5-4DE5-AAF8-76676F146193Q40032703-33EE609F-7F7B-4042-BC36-74F3EB198B0CQ41077622-362FCFAB-352D-49BA-8F61-AD288954477DQ42407577-02AF7480-4934-46DF-8750-4FC6DDE82575Q43088834-B4B3E71D-AD33-44B1-9A6F-5E851AEFE9FEQ43098577-54E3EAE4-BBFA-4FCA-AB1A-A6F7FE75B3BFQ43341265-C1C7FBF2-CAE1-4990-A83B-5BE7DBA63072Q43940197-06739C0F-F862-4225-870E-E81FFBDEFC56Q46023223-5ED4E719-D784-4012-8FEF-60A62B1B61FDQ46100315-A312FC3B-CE50-46B2-96E5-75AC50B24ABDQ46274315-11149CCF-C220-45D3-B333-EC5F7E7E9937Q46274909-1093693F-DEE9-4E39-93DB-CAB406A9E88CQ46297004-E70A36D7-DB03-470C-9048-1645348A90C9Q47348187-D2B8281E-CF33-4F43-AE04-4F26FFC5D704Q47715496-E89FF1AA-1A6F-4796-BFE6-AB551E24B482Q48044380-4FC7BF21-A29B-409B-9802-5269D018181FQ50901456-79E72C6A-2C63-4EE4-BD3C-0EA59A102D3FQ51515995-5A31F81C-CD8C-49FE-B38F-EC525613F12BQ51526897-061D1546-1EFE-4BD5-AD72-204720C43AB6Q51813723-4F273E2D-7B72-4D74-8754-93E9EC2B4DCAQ51985972-A9CB7387-3EBB-4B91-9AE3-8685008FF324Q53182250-4F766E0F-25FE-415C-B384-CDFEAE727131Q53316127-4C0374C1-5052-4232-8093-5766105DE1C4Q53678710-C5621BFB-0717-488B-8663-3DCE3E696D42Q54045394-EBD1E9E5-4752-427F-9ED9-0EDF9E8C443DQ55077106-1D9ADEFE-8EC3-4F17-BF24-758461BB3C14Q55313933-BE7082F5-6DF5-42E0-9B15-DF35BC05E709
P50
description
fisico
@it
natuurkundige
@nl
physicist
@en
name
Gerrit Van Der Laan
@ast
Gerrit Van Der Laan
@en
Gerrit Van Der Laan
@es
Gerrit Van Der Laan
@nl
Gerrit Van Der Laan
@sl
type
label
Gerrit Van Der Laan
@ast
Gerrit Van Der Laan
@en
Gerrit Van Der Laan
@es
Gerrit Van Der Laan
@nl
Gerrit Van Der Laan
@sl
prefLabel
Gerrit Van Der Laan
@ast
Gerrit Van Der Laan
@en
Gerrit Van Der Laan
@es
Gerrit Van Der Laan
@nl
Gerrit Van Der Laan
@sl
P1053
Q-1662-2015
P106
P21
P31
P3829
P496
0000-0001-6852-2495