13–18 Oct 2019
Chattanooga Convention Center
US/Eastern timezone

Design and performance of a superconducting neutron resonance spin flipper

15 Oct 2019, 14:55
25m
Meeting Room 3 (Chattanooga Convention Center)

Meeting Room 3

Chattanooga Convention Center

Oral Presentation Instrument Instruments

Speaker

Ryan Dadisman (Oak Ridge National Laboratory)

Description

Despite the challenges, neutron resonance spin echo (NRSE) still holds the promise to improve upon neutron spin echo (NSE) for measurement of slow dynamics in materials. In particular, the modulated intensity with zero effort (MIEZE) configuration allows for the measurement of depolarizing samples and is naturally suited for combination with small angle neutron scattering (SANS) as a result of there being no spin manipulations performed after the sample. The application of NRSE and MIEZE require a high efficiency radio frequency (RF) spin flipper. We present a bootstrap RF neutron spin flipper using high temperature superconducting (HTS) technology, with adiabatic spin flipping capability. A frequency of 2MHz has been achieved, which would produce an effective field integral of 0.35 Tm for a meter of separation in a NRSE spectrometer at the current device specifications. In bootstrap mode, the self-cancellation of Larmor phase aberrations can be achieved by the appropriate selection of the polarity of the gradient coils and has been observed.

Primary authors

Ryan Dadisman (Oak Ridge National Laboratory) Mr David Wasilko (Oak Ridge National Laboratory) Fankang Li (Oak Ridge National Lab) Dr Helmut Kaiser (University of Missouri) Dr Steve Kuhn (Indiana University) Dr Zachary Buck (University of Missouri) Dr Joseph Schaeperkoetter (University of Missouri) Lowell Crow (Neutron Technologies Division, ORNL) Dr Richard Riedel (Oak Ridge National Laboratory) Dr Lee Robertson (Oak Ridge National Laboratory) Chenyang Jiang Tianhao Wang (China Spallation Neutron Source) Mr Nicolas Silva (Oak Ridge National Laboratory) Dr Yoon Kang (Oak Ridge National Laboratory) Mr Sung-Woo Lee (Oak Ridge National Laboratory) Dr Kunlun Hong (Oak Ridge National Laboratory)

Presentation materials