Title :
Design of a Cryogenic Calorimeter for Synchrotron Light Source Beam-Based Heating
Author :
Trillaud, F. ; Prestemon, S. ; Schlueter, R.D. ; Marks, S.
Author_Institution :
Lawrence Berkeley Nat. Lab., Berkeley, CA, USA
fDate :
6/1/2009 12:00:00 AM
Abstract :
Superconducting insertion devices using Nb3Sn conductors offer the potential of higher brightness photon beams and enhanced spectral range over existing permanent magnet technology. However, Nb3Sn is a low temperature superconductor that must be operated at temperatures near 4.2 K. At these temperatures, any small heat dissipation can potentially be sufficient to lose the superconducting state of a section of a superconducting electromagnet. To quantify the amount of power deposited on the winding emanating from beam-induced heating on a storage ring, we propose a diagnostic calorimeter that will be temporarily integrated into the synchrotron ring. The design of the calorimeter is discussed and the various heat input sources, expected to disturb the operation of a superconducting electromagnet, are reviewed.
Keywords :
calorimeters; cryogenics; light sources; niobium alloys; superconducting magnets; tin alloys; type II superconductors; Nb3Sn; cryogenic calorimeter; heat dissipation; low temperature superconductor; permanent magnet; storage ring; superconducting electromagnet; superconducting insertion devices; synchrotron light source beam-based heating; synchrotron ring; ${rm Nb}_{3}{rm Sn}$ electromagnets; Calorimeter; synchrotron light source;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2009.2018214
