Your search keyword '"Wickenhäuser, T."' showing total 5 results

1. Metallic magnetic calorimeter arrays for the first phase of the ECHo experiment

Author

Mantegazzini, F., Barth, A., Dorrer, H., Düllmann, Ch. E., Enss, C., Fleischmann, A., Hammann, R., Kempf, S., Kieck, T., Kovac, N., Velte, C., Wegner, M., Wendt, K., Wickenhäuser, T., and Gastaldo, L.

Subjects

Physics - Instrumentation and Detectors

Abstract

The ECHo experiment has been designed for the determination of the effective electron neutrino mass by means of the analysis of the end-point region of the Ho-163 electron capture spectrum. Metallic magnetic calorimeters enclosing Ho-163 are used for the high energy resolution calorimetric measurement of the Ho-163 spectrum. For the first phase of the experiment, ECHo-1k, a 72-pixel MMC array has been developed. The single-pixel design has been optimised to reach 100% stopping power for the radiation emitted in the Ho-163 electron capture process (besides the electron neutrino) and an energy resolution < 10 eV FWHM. We describe the design of the ECHo-1k detector chip, the fabrication steps and the characterisation at room temperature, at 4 K and at the final operation temperatures. In particular, a detailed analysis of the results from these tests allowed to define a quality check protocol based on parameters measurable at room temperature. We discuss the performance achieved with the two ECHo-1k detector chips - the first one with Ho-163 implanted in gold and the second one with Ho-163 implanted in silver - which have been used for the high statistics measurement of the ECHo-1k experiment. An average activity per pixel of 0.81 Bq and 0.71 Bq and an average energy resolution of 6.07 eV FWHM and 5.55 eV FWHM have been achieved with these two detectors, fulfilling the requirements for the first phase of the ECHo experiment.

Published

2021

2. From ECHo-1k to ECHo-100k:Optimization of High-Resolution Metallic Magnetic Calorimeters with Embedded 163Ho for Neutrino Mass Determination

Author

Griedel, M., Mantegazzini, F., Barth, A., Bruer, E., Holzmann, W., Hammann, R., Hengstler, D., Kovac, N., Velte, C., Wickenhäuser, T., Fleischmann, A., Enss, C., Gastaldo, L., Dorrer, H., Kieck, T., Kneip, N., Düllmann, Ch. E., and Wendt, K.

Published

2022

3. Metallic magnetic calorimeter arrays for the first phase of the ECHo experiment

Author

Mantegazzini, F., Barth, A., Dorrer, H., Düllmann, Ch.E., Enss, C., Fleischmann, A., Hammann, R., Kempf, S., Kieck, T., Kovac, N., Velte, C., Wegner, M., Wendt, K., Wickenhäuser, T., and Gastaldo, L.

Published

2022

4. From ECHo-1k to ECHo-100k:Optimization of High-Resolution Metallic Magnetic Calorimeters with Embedded 163Ho for Neutrino Mass Determination.

Author

Griedel, M., Mantegazzini, F., Barth, A., Bruer, E., Holzmann, W., Hammann, R., Hengstler, D., Kovac, N., Velte, C., Wickenhäuser, T., Fleischmann, A., Enss, C., Gastaldo, L., Dorrer, H., Kieck, T., Kneip, N., Düllmann, Ch. E., and Wendt, K.

Subjects

ELECTRON capture, CALORIMETERS, DETECTORS, NEUTRINOS

Abstract

The ECHo experiment aims at determining the effective electron neutrino mass by analyzing the endpoint of the 163Ho electron capture spectrum. High energy resolution detectors with a well-tailored detector response are the essential ingredient for the success of the ECHo experiment. Metallic magnetic calorimeter arrays enclosing 163Ho have been chosen for the ECHo experiment. The first MMC array, ECHo-1k, showed excellent performances with an average energy resolution of 5.5 eV FWHM @ 5.9 keV. Based on the results obtained with the ECHo-1k array, optimization studies have paved the way towards a new detector design for the next experimental phase, ECHo-100k. The ECHo-100k chip features an optimized single pixel design to improve the detector performance as well as an upgraded on-chip thermalization layout. The newly fabricated ECHo-100k detectors have been fully characterized at room temperature, at 4 K and at millikelvin temperature. The obtained results show that the ECHo-100k array achieved the expected performance with an average energy resolution of 3.5 eV FWHM @ 5.9 keV, fulfilling the requirements for the ECHo-100k experimental phase. [ABSTRACT FROM AUTHOR]

Published

2022

5. Redox-active, photoluminescent porous polymers based on spirofluorene-bridged N -heterotriangulenes and their feasibility as organic cathode materials.

Author

Jocic A, Wickenhäuser T, Lindenthal S, Zhang WS, Zaumseil J, Schröder R, Klingeler R, and Kivala M

Abstract

Novel microporous polymers were synthesized through Yamamoto polymerization of selectively brominated spirofluorene-bridged N -heterotriangulenes. Extensive characterization, including combustion analysis, ToF-SIMS, IR, and Raman spectroscopy, confirmed the elemental composition and integrity of the polymers. The amorphous polymers, observed by scanning electron microscopy as globular particles aggregating into larger structures, exhibited remarkable thermal stability (decomposition temperatures > 400 °C) and BET surface areas up to 690 m 2 g -1 . Dispersions of the tert -butyl-substituted polymer in different solvents displayed bathochromically shifted emission with remarkable solvatochromism. The polymer is reversibly oxidized at +3.81 V ( vs. Li/Li + ) in composite electrodes with carbon black and reaches specific capacities up to 26 mA h g -1 and excellent cycling stability when implemented as cathode material in lithium-ion batteries. Our results highlight the potential of spirofluorene-bridged N -heterotriangulenes as versatile building blocks for the development of functional redox-active porous polymers., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2024