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This is a Experimental Study study.

October 16, 2025

Development of cryogenic X-ray detectors based on Mo/Au TES

Key Points

A spectral resolution of 3.5 eV was achieved with 5.9 keV X-rays from a 55Fe source, showcasing the detector's performance.
Using a dilution refrigerator and SQUID readout, the Mo/Au-based TES devices were characterized to meet ESA specifications.
Electrothermal parameters were extracted from I–V curves and complex impedance measurements, aligning with theoretical models.
Noise spectra analysis allowed for effective estimation of energy resolution, indicating the detectors' reliability for sensitive radiation detection.

Abstract

Abstract Transition Edge Sensors (TES) have emerged as highly sensitive radiation detectors with applications ranging from astrophysics to materials science. In the framework of the Athena X-ray mission, we have developed Mo/Au-based TES devices designed to meet the specifications defined by ESA. The detectors were fabricated using a Mo/Au/Au trilayer process and characterized in a dilution refrigerator using a SQUID readout. From I–V curves and complex impedance measurements, we extracted the electrothermal parameters of the TES, which are consistent with theoretical models. Noise spectra were analyzed to estimate the energy resolution, and an excess noise factor was obtained from the comparison of theoretical and experimental data. A spectral resolution of 3.5 eV was achieved for 5.9 keV X-rays from a ⁵⁵Fe source.

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Cite This Study

Camón et al. (Tue,) studied this question.

synapsesocial.com/papers/68f04918e559138a1a06d4fd https://doi.org/https://doi.org/10.21203/rs.3.rs-7700799/v1

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