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Cryogenic Microcalorimeters for High Resolution Energy Dispersive X-Ray Spectrometry

Published online by Cambridge University Press:  02 July 2020

J.Höhne
Affiliation:
CSP Cryogenic Spectrometers GmbH, Bahnhofstr. 18a, D-85737 Ismaning, Germany
M. Altmann
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
G. Angloher
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
M. Bühler
Affiliation:
CSP Cryogenic Spectrometers GmbH, Bahnhofstr. 18a, D-85737 Ismaning, Germany
F.v. Feilitzsch
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
T. Frank
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
P. Hettl
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
T. Hertrich
Affiliation:
CSP Cryogenic Spectrometers GmbH, Bahnhofstr. 18a, D-85737 Ismaning, Germany
J. Jochum
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
T. Nüßle
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
S. Pfnür
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
J. Schnagl
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
S. Wänninger
Affiliation:
Technische Universität München, Physik Department El 5, D-85748, Garching, Germany
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Abstract

Cryogenic detectors with excellent energy resolution and low energy threshold far beyond the level of semiconducting detectors open a variety of new. applications in physics including search for Dark Matter in the universe [2], neutrino physics [3], and IR-, UV- and X-ray astrophysics [4, 9]. Interdisciplinary fields where cryogenic detectors have already shown promising results are the detection of biomolecules [5] and X-ray spectroscopy at synchrotron beam lines [6] and in scanning electron microscopes (SEMs) [7]. For both, astrophysical and analytical use, the development of high resolution microcalorimeters based on iridium/gold phase transition thermometers and aluminum tunnel junctions for use in a compact and universal detector system was initiated.

Our cryogenic microcalorimeters consist of an absorber, a temperature sensor and a weak coupling to a heat sink. An X-ray photon interacts with the absorber and raises its temperature. The sensor measures the temperature increase and the system then, mediated by the coupling, relaxes back to its operating temperature.

Type
Mas Celebrates: Fifty Years of Electron Probe Microanalysis
Copyright
Copyright © Microscopy Society of America

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References

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