Thermal Impact of Cosmic Ray Interaction with an X-Ray Microcalorimeter Array
Autor: | Stephen J. Smith, S. Beaumont, Richard L. Kelley, Jong Y. Ha, N. A. Wakeham, Edward J. Wassell, Kazuhiro Sakai, James A. Chervenak, Simon R. Bandler, Caroline A. Kilbourne, John E. Sadleir, Fred M. Finkbeiner, Meng P. Chang, A. R. Miniussi, Frederick S. Porter, Joseph S. Adams, R. Hummatov |
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Rok vydání: | 2020 |
Předmět: | |
Zdroj: | Journal of Low Temperature Physics. 199:45-55 |
ISSN: | 1573-7357 0022-2291 |
DOI: | 10.1007/s10909-020-02337-1 |
Popis: | The X-ray Integral Field Unit (X-IFU) instrument on the Athena mission will be positioned at the Lagrangian point L2 and be subject to cosmic rays generated by astrophysics sources, primarily relativistic protons. Previous simulations have shown that particles of energy higher than 150 MeV will make it through the outer layers of the satellite. They will reach the detector wafer with a rate of 3 cts cm−2 s−1 and a most probable energy deposited in the Si frame supporting the array at 150 keV. These events can affect the energy resolution of the detectors through the thermal fluctuations that they produce. This study assesses this potential problem and discusses two suggested design approaches to decrease the impact of cosmic ray in order to limit their effect to their allocation of 0.2 eV within the Athena/X-IFU energy-resolution budget. The first is the addition of a coating layer of high heat capacity material (e.g., Pd) and the second is the splitting of this coating into two thermal regions near the TES array to keep the heat away from the array. Implementing these two features is predicted to cause a decrease in the number of events above 1 µK by more than a factor 10 to ~ 1.5 cps when compared to an equivalent design without these features. |
Databáze: | OpenAIRE |
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