Working principle and demonstrator of microwave-multiplexing for the HOLMES experiment microcalorimeters

The determination of the neutrino mass is an open issue in modern particle physics and astrophysics. The direct mass measurement is the only theory-unrelated experimental tool capable to probe such quantity. The HOLMES experiment aims to measure the end-point energy of the electron capture (EC) deca...

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Published in	arXiv.org
Main Authors	Becker, D T, Bennett, D A, Biasotti, M, Borghesi, M, Ceriale, V, De Gerone, M, Faverzani, M, Ferri, E, Fowler, J W, Gallucci, G, Gard, J D, Giachero, A, Hays-Wehle, J P, Hilton, G C, Mates, J A B, Nucciotti, A, Orlando, A, Pessina, G, Puiu, A, Reintsema, C D, Schmidt, D R, Swetz, D S, Ullom, J N, Vale, L R
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 11.10.2019
Subjects	Astrophysics Beta decay Bolometers Calorimeters Electron capture Energy measurement Materials science Multiplexing Neutrinos Particle physics Phase transitions Physics - Instrumentation and Detectors Pixels Read out systems Sensor arrays Sensors Superconducting quantum interference devices Superconductivity
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Abstract	The determination of the neutrino mass is an open issue in modern particle physics and astrophysics. The direct mass measurement is the only theory-unrelated experimental tool capable to probe such quantity. The HOLMES experiment aims to measure the end-point energy of the electron capture (EC) decay of $^{163}$Ho with a statistical sensitivity on the neutrino mass as low as $\sim 1$ eV/c$^2$. In order to acquire the large needed statistics, by keeping the pile-up contribution as low as possible, 1024 transition edge sensors (TESs) with high energy and time resolutions will be employed. Microcalorimeter and bolometer arrays based on transition edge sensor with thousands of pixels are under development for several space-based and ground-based applications, including astrophysics, nuclear and particle physics, and materials science. The common necessary challenge is to develop pratical multiplexing techniques in order to simplify the cryogenics and readout systems. Despite the various multiplexing variants which are being developed have been successful, new approaches are needed to enable scaling to larger pixel counts and faster sensors, as requested for HOLMES, reducing also the cost and complexity of readout. A very novel technique that meets all of these requirements is based on superconducting microwave resonators coupled to radio-frequency Superconducting Quantum Interference Devices, in which the the changes in the TES input current is tranduced to a change in phase of a microwave signal. In this work we introduce the basics of this technique, the design and development of the first two-channel read out system and its performances with the first TES detectors specifically designed for HOLMES. In the last part we explain how to extend this approach scaling to 1024 pixels.
AbstractList	JINST 14 (2019) P10035 The determination of the neutrino mass is an open issue in modern particle physics and astrophysics. The direct mass measurement is the only theory-unrelated experimental tool capable to probe such quantity. The HOLMES experiment aims to measure the end-point energy of the electron capture (EC) decay of $^{163}$Ho with a statistical sensitivity on the neutrino mass as low as $\sim 1$ eV/c$^2$. In order to acquire the large needed statistics, by keeping the pile-up contribution as low as possible, 1024 transition edge sensors (TESs) with high energy and time resolutions will be employed. Microcalorimeter and bolometer arrays based on transition edge sensor with thousands of pixels are under development for several space-based and ground-based applications, including astrophysics, nuclear and particle physics, and materials science. The common necessary challenge is to develop pratical multiplexing techniques in order to simplify the cryogenics and readout systems. Despite the various multiplexing variants which are being developed have been successful, new approaches are needed to enable scaling to larger pixel counts and faster sensors, as requested for HOLMES, reducing also the cost and complexity of readout. A very novel technique that meets all of these requirements is based on superconducting microwave resonators coupled to radio-frequency Superconducting Quantum Interference Devices, in which the the changes in the TES input current is tranduced to a change in phase of a microwave signal. In this work we introduce the basics of this technique, the design and development of the first two-channel read out system and its performances with the first TES detectors specifically designed for HOLMES. In the last part we explain how to extend this approach scaling to 1024 pixels. The determination of the neutrino mass is an open issue in modern particle physics and astrophysics. The direct mass measurement is the only theory-unrelated experimental tool capable to probe such quantity. The HOLMES experiment aims to measure the end-point energy of the electron capture (EC) decay of $^{163}$Ho with a statistical sensitivity on the neutrino mass as low as $\sim 1$ eV/c$^2$. In order to acquire the large needed statistics, by keeping the pile-up contribution as low as possible, 1024 transition edge sensors (TESs) with high energy and time resolutions will be employed. Microcalorimeter and bolometer arrays based on transition edge sensor with thousands of pixels are under development for several space-based and ground-based applications, including astrophysics, nuclear and particle physics, and materials science. The common necessary challenge is to develop pratical multiplexing techniques in order to simplify the cryogenics and readout systems. Despite the various multiplexing variants which are being developed have been successful, new approaches are needed to enable scaling to larger pixel counts and faster sensors, as requested for HOLMES, reducing also the cost and complexity of readout. A very novel technique that meets all of these requirements is based on superconducting microwave resonators coupled to radio-frequency Superconducting Quantum Interference Devices, in which the the changes in the TES input current is tranduced to a change in phase of a microwave signal. In this work we introduce the basics of this technique, the design and development of the first two-channel read out system and its performances with the first TES detectors specifically designed for HOLMES. In the last part we explain how to extend this approach scaling to 1024 pixels.
Author	Ferri, E Pessina, G Borghesi, M Vale, L R Orlando, A Biasotti, M Giachero, A Schmidt, D R Nucciotti, A Fowler, J W Puiu, A Gallucci, G Swetz, D S Becker, D T Ceriale, V Hilton, G C Reintsema, C D Faverzani, M Bennett, D A Gard, J D Hays-Wehle, J P Ullom, J N De Gerone, M Mates, J A B
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BackLink	https://doi.org/10.48550/arXiv.1910.05217$$DView paper in arXiv https://doi.org/10.1088/1748-0221/14/10/P10035$$DView published paper (Access to full text may be restricted)
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Snippet	The determination of the neutrino mass is an open issue in modern particle physics and astrophysics. The direct mass measurement is the only theory-unrelated... JINST 14 (2019) P10035 The determination of the neutrino mass is an open issue in modern particle physics and astrophysics. The direct mass measurement is the...
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SubjectTerms	Astrophysics Beta decay Bolometers Calorimeters Electron capture Energy measurement Materials science Multiplexing Neutrinos Particle physics Phase transitions Physics - Instrumentation and Detectors Pixels Read out systems Sensor arrays Sensors Superconducting quantum interference devices Superconductivity
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Title	Working principle and demonstrator of microwave-multiplexing for the HOLMES experiment microcalorimeters
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