2001
DOI: 10.1103/physrevc.63.055502
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Magnetic trapping of ultracold neutrons

Abstract: Three-dimensional magnetic confinement of neutrons is reported. Neutrons are loaded into an Ioffe-type superconducting magnetic trap through inelastic scattering of cold neutrons with 4 He. Scattered neutrons with sufficiently low energy and in the appropriate spin state are confined by the magnetic field until they decay. The electron resulting from neutron decay produces scintillations in the liquid helium bath that results in a pulse of extreme ultraviolet light. This light is frequency downconverted to the… Show more

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Cited by 28 publications
(20 citation statements)
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“…Indeed, in such experiments, there are no threshold effects, and the entire proton recoil spectrum is empirically accessible [61,62]. On the other hand, experimental concepts which detect the decay electrons have been under development [63,64].…”
Section: Formalism For Neutron β-Decay Observablesmentioning
confidence: 99%
“…Indeed, in such experiments, there are no threshold effects, and the entire proton recoil spectrum is empirically accessible [61,62]. On the other hand, experimental concepts which detect the decay electrons have been under development [63,64].…”
Section: Formalism For Neutron β-Decay Observablesmentioning
confidence: 99%
“…In the latter work we used a 1D model for the trapping field. In the present article we have extended this analysis to arbitrary orbits in arbitrary fields in 3D space and report calculations of mean spin-flip rates for the UCNτ system and for multipole fields such as the cylindrical octupole of the HOPE project [25,26] and the Ioffe-type quadrupole trapping fields of [23,34,35]. In all cases relevant to magnetic UCN storage we have established agreement between the semi-classical approach, solving the spin-dependent SE for the time-dependent field seen by the particle in a classical orbit, and a fully quantum mechanical analysis based on the space and spin dependent SE solved in WKB approximation.…”
Section: Discussionmentioning
confidence: 99%
“…2 if we use values of holding field close to their minima: 0.08 T/0.1 T for HOPE (vertical configuration with B min = 0.013 T/horizontal with B min = 0.09 T) [26] and 0.1 T (0.6 T) for NIST mark 2 (mark 3) with B min ≈ 0.1 T (0.6 T) [34,35].…”
Section: D Simulations For Multipole Fieldsmentioning
confidence: 99%
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“…Difference in electronegativity between boron and nitrogen give rise to permanent dipole such that the h-BN is electrically insulating while graphite is conducting5. The h-BN also has a variety of useful properties such as low dielectric constant6, high thermal conductivity7, thermal and chemical stability8, superior lubrication9, neutron shielding10 and piezoelectricity11. Recently, h-BN films, often dubbed as “white graphene” have been given a considerable attention since graphene was discovered in 200412.…”
mentioning
confidence: 99%