about
In situ diagnostics of the crystal-growth process through neutron imaging: application to scintillatorsSub-pixel correlation length neutron imaging: Spatially resolved scattering information of microstructures on a macroscopic scale.Time-of-Flight Three Dimensional Neutron Diffraction in Transmission Mode for Mapping Crystal Grain Structures.Neutron guide optimisation for a time-of-flight neutron imaging instrument at the European Spallation Source.General solution for quantitative dark-field contrast imaging with grating interferometers.Quantitative Neutron Dark-field Imaging through Spin-Echo Interferometry.Flexible sample environment for high resolution neutron imaging at high temperatures in controlled atmosphere.Milk gelation studied with small angle neutron scattering techniques and Monte Carlo simulations.Wavelength-independent constant period spin-echo modulated small angle neutron scattering.Three Dimensional Polarimetric Neutron Tomography of Magnetic Fields.Statistical uncertainty in the dark-field and transmission signal of grating interferometry.Small angle neutron scattering on an absolute intensity scale and the internal surface of diatom frustules from three species of differing morphologies.BioRef II-Neutron reflectometry with relaxed resolution for fast, kinetic measurements at HZB.BioRef: a versatile time-of-flight reflectometer for soft matter applications at Helmholtz-Zentrum Berlin.Three-dimensional imaging of magnetic domains.VESPA: The vibrational spectrometer for the European Spallation Source.Visibility simulation of realistic grating interferometers including grating geometries and energy spectra.TOF-SEMSANS—Time-of-flight spin-echo modulated small-angle neutron scatteringUsing a grating analyser for SEMSANS investigations in the very small angle rangeImaging with Polarized NeutronsThree-Dimensional Imaging of Magnetic Domains with Neutron Grating InterferometryDetection system for microimaging with neutronsNeutron Bragg-edge mapping of weld seamsA highly adaptive detector system for high resolution neutron imagingNeutron Bragg-edge-imaging for strain mapping under in situ tensile loadingNeutron imaging in materials scienceNeutron tomography using an elliptic focusing guideRevealing microstructural inhomogeneities with dark-field neutron imagingX-ray and neutron imaging – Complementary techniques for materials science and engineeringAdvances in neutron radiography and tomographyImaging with polarized neutronsInvestigation of soot sediments in particulate filters and engine componentsNew trends in neutron imagingPolarized neutron imaging at the CONRAD instrument at Helmholtz Centre BerlinCharacterization of water exchange and two-phase flow in porous gas diffusion materials by hydrogen-deuterium contrast neutron radiographyInvestigation of the skin effect in the bulk of electrical conductors with spin-polarized neutron radiographyThree-dimensional imaging of magnetic fields with polarized neutronsQuasi–in situ neutron tomography on polymer electrolyte membrane fuel cell stacksThe new cold neutron radiography and tomography instrument CONRAD at HMI BerlinIndustrial applications at the new cold neutron radiography and tomography facility of the HMI
P50
Q30382029-BC092F84-EAE7-4027-A86F-25D17E99B718Q37708038-E5D19CAA-7309-4B99-815E-AD86AB43F6CCQ38607597-07FED7F6-9A45-4A02-919D-606448A23EBEQ39022343-A279DDDB-3B40-407A-B9DA-E3E0087D57C0Q42145788-197B0A5E-DEFF-4615-8E7C-63D90BA1A033Q42618300-A1838FED-8BCA-4A82-8EAC-E56DC0F6BC1FQ43733907-96FC2534-4BDE-43C2-A7BA-CACE5528F629Q45133621-15C55C5B-5F4B-4326-8867-32284576E593Q46400909-D84AAFED-1875-4D9C-A5D7-75832C19FF14Q48042003-97FE596A-34FD-4F00-B966-1B9D70C2F449Q48380845-0449A688-5064-4E4B-92FD-4AD3CBD158E8Q49011210-D0E91AD2-C47B-4AF3-8F80-C840280CA5D7Q51736721-F065DA0A-F881-4578-BC4A-700B1CCCEDEAQ52894919-1F93313C-5C9A-4DC2-9D72-F749767F7108Q52900174-3F3FF0A9-9B5B-4190-93AE-686929428FF8Q53067953-C64B0792-12B8-49F2-8BC8-7B3760154886Q53528407-67866B57-EB18-4BCD-890C-F0C86CB2A8D2Q57388911-DEEB27F0-BDD5-48D1-B18B-A403EF37DA0CQ57388913-06118D07-98C9-45C7-8817-10E3641B9A99Q57969628-704CB51E-B785-49FF-8328-705F89EC1CDAQ57969705-579AEE1C-88EB-4538-A1F5-3115DA92DD1CQ57969763-4591F269-819C-43A1-A892-8C98D0AF6CEFQ57969775-87CDD5DE-5408-46A2-8283-46D8DEE9CA08Q57969788-7EC069B3-D3E8-4519-9154-4C618191719FQ57969811-86CAD44F-5F2C-4857-802C-C35B56448162Q57969812-85A5724E-A87C-4D1D-A066-B797D439AE64Q57969833-D922F7ED-2E73-439C-86D0-6CBE7271A0BDQ57969835-FA6F6768-30B1-4684-93F1-06D745D43086Q57969844-421B784A-B1BA-4B2E-B387-90476815824EQ57969848-4AA88DAA-7085-4830-909C-0D0684A66C5FQ57969862-926872F0-DD68-4A22-9293-B954E4AB4410Q57969866-AD85D29E-C55F-4D15-94EF-BE76343ADE6CQ57969869-146A2F30-EEA2-4F5B-A911-52C9E3E8C292Q57969870-AE391513-D060-433D-AF88-C3A909C0E371Q57969884-3DF5A3E6-1A0A-4D74-BD92-4DBB337A55B0Q57969893-A3C14019-FB17-4621-9066-92E33FC8E054Q57969902-825BE52D-A3D2-4D49-9076-C4664086521EQ57969915-0EBE9A47-3D06-458C-913B-A4A0B6301CFAQ57969922-B4F58E25-8C7F-499C-BCA6-D63CE60EB4ABQ57969929-F52AF09C-3C45-4A6D-9AE9-E7B71E47F3EA
P50
description
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Markus Strobl
@ast
Markus Strobl
@en
Markus Strobl
@es
Markus Strobl
@nl
type
label
Markus Strobl
@ast
Markus Strobl
@en
Markus Strobl
@es
Markus Strobl
@nl
prefLabel
Markus Strobl
@ast
Markus Strobl
@en
Markus Strobl
@es
Markus Strobl
@nl
P214
P106
P1153
6701835833
P21
P214
P31
P496
0000-0001-9315-8787
P735
P7859
viaf-62593456