TY - JOUR
T1 - Polarisation Development at the European Spallation Source
AU - Lee, Wai Tung
AU - Hagman, Joel
AU - Martin rodriguez, Damian
AU - Stellhorn, Annika
AU - Backs, Alex
AU - Arnold, Thomas
AU - Blackburn, Elizabeth
AU - Deen, Pascale
AU - Durniak, Celine
AU - Feygenson, Mikhail
AU - Holmes, Alexander T.
AU - Houston, Judith
AU - Jaksch, Sebastian
AU - Kirstein, Oliver
AU - Mannix, Dan
AU - Månsson, Martin
AU - Morgano, Manuel
AU - Nilsen, Gøran
AU - Noferini, Daria
AU - Nylander, Tommy
AU - Orlov, Dmytro
AU - Santoro, Valentina
AU - Schmidt, Søren
AU - Schulz, Michael
AU - Schweika, Werner
AU - Tartaglione, Aureliano
AU - Toft-Petersen, Rasmus
AU - Villacorta, Félix J.
AU - Wolff, Maximillian
AU - Woracek, Robin
PY - 2023/10/1
Y1 - 2023/10/1
N2 - To meet the ever-increasing user demand, eleven of the fifteen European Spallation Source (ESS) instruments under construction aim to offer polarised neutrons for user experiments. They include an imaging instrument, a SANS instruments, two reflectometers, three diffractometers, and four spectrometers. In conjunction with in-kind contributions and instrumentation grants, the ESS Polarisation Project will support the incorporation of polarisation analysis on eight of the eleven instruments. The project aims to deliver polarised neutrons for first-science experiments as instruments enter operation. Different polariser and polarisation analyser techniques will be available to accommodate the specifics of experiments on a given instrument. Polarised 3He neutron spin filter using either Metastable Optical Pumping (MEOP) or Spin-Exchange Optical Pumping (SEOP) techniques will provide shared-use equipment among many instruments, with SEOP’s main application being in situ beam-polarisation. Several instruments will also use polarising-supermirror devices. To provide wide-bandwidth spin-flipping capability to the time-of-flight instruments, Adiabatic Fast Passage (AFP) neutron spin flippers, also known as gradient-field radiofrequency spin flippers will be the main method of choice. Devices based on the same AFP principle will also be used to flip 3He nuclear spins. We are constructing our first 3He polariser setup, including field coils to produce highly uniform magnetic field. Monte Carlo simulations are being done for the supermirror polarisers. To ensure science-focused development, we are working with university partners in doing scientific experiments with polarised neutrons. These are some of the activities developing polarisation analysis for ESS instruments in our project.
AB - To meet the ever-increasing user demand, eleven of the fifteen European Spallation Source (ESS) instruments under construction aim to offer polarised neutrons for user experiments. They include an imaging instrument, a SANS instruments, two reflectometers, three diffractometers, and four spectrometers. In conjunction with in-kind contributions and instrumentation grants, the ESS Polarisation Project will support the incorporation of polarisation analysis on eight of the eleven instruments. The project aims to deliver polarised neutrons for first-science experiments as instruments enter operation. Different polariser and polarisation analyser techniques will be available to accommodate the specifics of experiments on a given instrument. Polarised 3He neutron spin filter using either Metastable Optical Pumping (MEOP) or Spin-Exchange Optical Pumping (SEOP) techniques will provide shared-use equipment among many instruments, with SEOP’s main application being in situ beam-polarisation. Several instruments will also use polarising-supermirror devices. To provide wide-bandwidth spin-flipping capability to the time-of-flight instruments, Adiabatic Fast Passage (AFP) neutron spin flippers, also known as gradient-field radiofrequency spin flippers will be the main method of choice. Devices based on the same AFP principle will also be used to flip 3He nuclear spins. We are constructing our first 3He polariser setup, including field coils to produce highly uniform magnetic field. Monte Carlo simulations are being done for the supermirror polarisers. To ensure science-focused development, we are working with university partners in doing scientific experiments with polarised neutrons. These are some of the activities developing polarisation analysis for ESS instruments in our project.
U2 - 10.1051/epjconf/202328603004
DO - 10.1051/epjconf/202328603004
M3 - Article
SN - 2100-014X
VL - 286
SP - 03004
JO - EPJ Web of Conferences
JF - EPJ Web of Conferences
ER -