Design and performance of a superconducting neutron resonance spin flipper

Design and performance of a superconducting neutron resonance spin flipper

Despite the challenges, neutron resonance spin echo still holds the promise to improve upon neutron spin echo for the measurement of slow dynamics in materials. We present a bootstrap, radio frequency neutron spin flipper using high temperature superconducting technology capable of flipping neutron...

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Veröffentlicht in:Review of scientific instruments 2020-01, Vol.91 (1), p.015117-015117
Hauptverfasser: Dadisman, Ryan, Wasilko, David, Kaiser, Helmut, Kuhn, Stephen J., Buck, Zachary, Schaeperkoetter, Joseph, Crow, Lowell, Riedel, Richard, Robertson, Lee, Jiang, Chenyang, Wang, Tianhao, Silva, Nicolas, Kang, Yoon, Lee, Sung-Woo, Hong, Kunlun, Li, Fankang
Format: Artikel
Sprache:eng
Schlagworte:
Coils
High temperature
Polarity
Resonance
Scientific apparatus & instruments
Superconductivity
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Zusammenfassung:Despite the challenges, neutron resonance spin echo still holds the promise to improve upon neutron spin echo for the measurement of slow dynamics in materials. We present a bootstrap, radio frequency neutron spin flipper using high temperature superconducting technology capable of flipping neutron spin with either nonadiabatic or adiabatic modes. A frequency of 2 MHz has been achieved, which would achieve an effective field integral of 0.35 T m for a meter of separation in a neutron resonance spin echo spectrometer at the current device specifications. In bootstrap mode, the self-cancellation of Larmor phase aberrations can be achieved with the appropriate selection of the polarity of the gradient coils.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.5124681