Performance of Magnetic Penetration Thermometers for X-Ray Astronomy

Adams, J. S.; Balvin, M. A.; Bandler, S. R.; Denis, K. L.; Hsieh, W. T.; Kelly, D. P.; Nagler, P. C.; Porst, J. P.; Sadleir, J. E.; Seidel, G. M.; Smith, S. J.; Stevenson, T. R.

Performance of Magnetic Penetration Thermometers for X-Ray Astronomy

Authors: J. S. Adams
M. A. Balvin
S. R. Bandler
K. L. Denis
W. T. Hsieh
D. P. Kelly
P. C. Nagler
J. P. Porst
J. E. Sadleir
G. M. Seidel
S. J. Smith
T. R. Stevenson
Publication date: 3 February 2012
Publisher

Abstract

The ideal X-ray camera for astrophysics would have more than a million pixels and provide an energy resolution of better than leV FWHM for energies up to 10 keY. We have microfabricated and characterized thin-film magnetic penetration thermometers (MPTs) that show great promise towards meeting these capabilities. MPTs operate in similar fashion to metallic magnetic calorimeters (MMCs), except that a superconducting sensor takes the place of a paramagnetic sensor and it is the temperature dependence of the superconductor's diamagnetic response that provides the temperature sensitivity. We present a description of the design and performance of our prototype thin-film MPTs with MoAu bilayer sensors, which have demonstrated an energy resolution of approx 2 eV FWHM at 1.5 keY and 4.3 eV FWHM at 5.9 keY

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