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History Francis Tasset in 2010 In 1988, the American physicist K.P. Coulter and collaborators [1] first showed that it was possible to polarise a polychromatic neutron beam by simple transmission/abso

How fast is CYCLOPS ? This movie was recorded during the very first tests of the instrument in June 2009. It shows that exposures as short as a few seconds are enough to get excellent Laue patterns fr

Simulated experiment SuperADAM operates as a fixed wavelength neutron reflectometer The neutron beam from the cold neutron guide H521 arrives at the monochromator which selects a narrow wavelength ban

Back to 'Scientific Publication' menu Latest papers saved in our library Joint ILL-ESRF library

How neutron spins behave Here D7 is shown in its spin-flip (SF) configuration. Unpolarised neutrons are reflected by the graphite monochromator. The incident neutron beam is polarised by the supermirr

How neutron spins behave Here D7 is shown in its spin-flip (SF) configuration. Unpolarised neutrons are reflected by the graphite monochromator. The incident neutron beam is polarised by the supermirr

Neutron diffraction is one of the most powerful tools in the world for studying the structure of materials, and is used by scientists from chemistry, physics, biology and materials science. By firing

Neutron scattering density of the active-site residues and water molecules involved in the interactions between the enzyme xylose isomerase and glucose A close-up view of the putative hydronium (D3O+)

WHY AND HOW WE USE NEUTRONS? CASE STUDIES (pdf - 464 Ki) (pdf - 2.90 Mi) TECHNIQUES RELEVANT TO THE FIELD Neutron diffraction Small Angle neutron scattering Neutron reflectometry Neutron radiography a

Hydrogen and dihydrogen bonded directly to ruthenium in RuH2(H2)2(PCyp3)2 Hydrogenation and dehydrogenation in potential hydrogen storage compounds Transition metal hydrides are critically involved in