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Spherical Neutron Polarimetry simulations. Case of mixed nuclear/magnetic signal : N and M in quadrature, Pi // Ox The incident polarisation vector is chosen parallel to the X axis, i.e. parallel to t

Spherical Neutron Polarimetry simulations. Case of mixed nuclear/magnetic signal : N and M in quadrature, Pi // Oy The incident polarisation vector is chosen parallel to the Y axis, i.e. perpendicular

Spherical Neutron Polarimetry simulations. Case of mixed nuclear/magnetic signal : N and M in quadrature, Pi // Oz The incident polarisation vector is chosen parallel to the Z axis, i.e. perpendicular

Main areas of expertise : E-mail qureshi(at)ill.fr Location Building ILL 4 - Office 108 Phone Phone : +33 (0)4 76 20 79 87 Digital vcard link to download Find me LinkedIn | ORCID ID | Google Scholar |

Main areas of expertise : E-mail katcho(at)ill.fr Location Building ILL 17 - Office 014 Phone Phone : +33 (0)4 76 20 78 24 Instr. phone +33 (0)4 76 20 Digital vcard link to download Find me LinkedIn |

Neutron delivery guides and infrastructure Our expertise lies in the comprehensive design of the neutron guide systems, vacuum housings, alignment systems and all supporting infrastructure. From the H

Neutrons detection at the ILL A draft history of neutron detection at the ILL is available here in French . Its content has not yet been validated and cannot be considered exact. If you wish to use or

Improving neutron flux is of little value if the scattered neutrons cannot be detected efficiently with the required spatial and temporal resolution. High-quality detectors are essential for optimal i

Neutron Optics Well-designed optical elements play a crucial role in maximising neutron flux at the sample, with carefully optimised systems capable of increasing intensities by orders of magnitude. W

Neutron quantum states in a gravitational potential The existence of quantum states of matter in the gravitational field has been demonstrated for the very first time at the ILL by a series of ground-