Physical Review Accelerators and Beams (Apr 2022)

Inverse analysis of critical current density in a bulk high-temperature superconducting undulator

  • Ryota Kinjo,
  • Marco Calvi,
  • Kai Zhang,
  • Sebastian Hellmann,
  • Xiaoyang Liang,
  • Thomas Schmidt,
  • Mark D. Ainslie,
  • Anthony R. Dennis,
  • John H. Durrell

DOI
https://doi.org/10.1103/PhysRevAccelBeams.25.043502
Journal volume & issue
Vol. 25, no. 4
p. 043502

Abstract

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In order to optimize the design of undulators using high-temperature superconductor (HTS) bulks we have developed a method to estimate the critical current density (J_{c}) of each bulk from the overall measured magnetic field of an undulator. The vertical magnetic field was measured along the electron-beam axis in a HTS bulk-based undulator consisting of twenty Gd-Ba-Cu-O (GdBCO) bulks inserted in a 12-T solenoid. The J_{c} values of the bulks were estimated by an inverse analysis approach in which the magnetic field was calculated by the forward simulation of the shielding currents in each HTS bulk with a given J_{c}. Subsequently the J_{c} values were iteratively updated using the precalculated response matrix of the undulator magnetic field to J_{c}. We demonstrate that it is possible to determine the J_{c} of each HTS bulk with sufficient accuracy for practical application within around 10 iterations. The precalculated response matrix, created in advance, enables the inverse analysis to be performed within a practically short time, on the order of several hours. The measurement error, which destroys the uniqueness of the solution, was investigated and the points to be noted for future magnetic field measurements were clarified. The results show that this inverse-analysis method allows the estimation of the J_{c} of each bulk comprising an HTS bulk undulator.