2021
DOI: 10.1063/5.0045687
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A large beam high efficiency radio frequency neutron spin flipper

Abstract: A design for a radio frequency (RF) neutron spin flipper obtained from magneto-static and neutron spin transport simulations is presented. The RF flipper constructed from this design provides a flipping probability of 0.999 or better for a beam size 6 cm wide and 15 cm high and a wavelength band between 0.4 and 0.6 nm. Three permanent magnet guide field sections with air gaps provide a linear field gradient along the beam propagation direction over a large cross-sectional area. An RF oscillator based on coupli… Show more

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Cited by 4 publications
(8 citation statements)
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“…1a, a double V-shaped m=3.5 supermirror polarizer in a transmission geometry, provided by SwissNeutronics [29,30], is used to polarize the incident neutron beam and provides a neutron polarization of 99 % over a beam cross section of 6 cm (width) × 15 cm (height) for the wavelength range from 5.5 Å to 8.0 Å that is typically used for polarized beam experiments on NG-7 SANS and VSANS at the NCNR [1]. An adiabatic RF spin flipper [31,32] is used to flip, at will, the neutron polarization of the incident beam. A schematic diagram of the polarized VSANS setup is shown in Fig.…”
Section: Methodsmentioning
confidence: 99%
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“…1a, a double V-shaped m=3.5 supermirror polarizer in a transmission geometry, provided by SwissNeutronics [29,30], is used to polarize the incident neutron beam and provides a neutron polarization of 99 % over a beam cross section of 6 cm (width) × 15 cm (height) for the wavelength range from 5.5 Å to 8.0 Å that is typically used for polarized beam experiments on NG-7 SANS and VSANS at the NCNR [1]. An adiabatic RF spin flipper [31,32] is used to flip, at will, the neutron polarization of the incident beam. A schematic diagram of the polarized VSANS setup is shown in Fig.…”
Section: Methodsmentioning
confidence: 99%
“…No observable difference in polarization in the same wavelength range was seen when we changed incident beam optics from 1 neutron guide to 9 guides [1]. The RF flipper made use of a newly designed magnetostatic cavity capable of providing a more spatially uniform linear gradient field and push-pull home-made modified Hartley RF oscillators capable of providing a higher RF field than a conventional RF flipper [1,32]. The flipping probability of the RF flipper was found to be higher than 0.999.…”
Section: Polarized Beam Performancementioning
confidence: 99%
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“…This situation occurs in the frame of the neutron when some component of a magnetic field of constant magnitude rotates about a given axis. This problem is one of the corner stones of magnetic resonance [7], and is found throughout neutron optics wherever spin flipping or spin rotation is employed [8,9,10,11,12,13].…”
Section: A Tensor Formulationmentioning
confidence: 99%
“…A pair of loosely wound excitation coils of only a few turns each spread out along the primary coil inductively couples the main coil to a pair of push-pull in-house-designed modified Hartley RF oscillators, described in detail by Chen et al (2021). This circuit replaces the impedance-matched RF amplifier and waveform generator found in most RF neutron spin flipper setups.…”
Section: Figurementioning
confidence: 99%