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QUEST-DMC: Background Modelling and Resulting Heat Deposit for a Superfluid Helium-3 Bolometer

by Heikkinen, P. J. , Thompson, M. D. , Haley, R. P. , Monroe, J. , Salmon, T. , Smith, R. , Whitehead, L. , Autti, S. , Franchini, P. , West, S. M. , Eng, N. , Levitin, L. V. , Zmeev, D. E. , Kemp, A. , Darvishi, N. , Casey, A. , Prance, J. R. , Saunders, J. , Tsepelin, V. , Noble, M. T. , Rojas, X. , Zhang, K. , March-Russel, J. , Leason, E.

in Atoms & subatomic particles / Bolometers / Characterization and Evaluation of Materials / Condensed Matter Physics / Cosmic rays / Dark matter / Energy / Equilibrium / Experiments / Fluids / Liquid helium / Magnetic Materials / Magnetism / Monte Carlo simulation / Physics / Physics and Astronomy / Radioactivity / Radioisotopes / Radon / Scientific imaging / Sensors / Superfluidity

2024

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QUEST-DMC: Background Modelling and Resulting Heat Deposit for a Superfluid Helium-3 Bolometer

2024

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QUEST-DMC: Background Modelling and Resulting Heat Deposit for a Superfluid Helium-3 Bolometer

2024

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Journal Article

QUEST-DMC: Background Modelling and Resulting Heat Deposit for a Superfluid Helium-3 Bolometer

Heikkinen, P. J.,

Thompson, M. D.,

Haley, R. P.,

Monroe, J.,

Salmon, T.,

Smith, R.,

Whitehead, L.,

Autti, S.,

Franchini, P.,

West, S. M.,

Eng, N.,

Levitin, L. V.,

Zmeev, D. E.,

Kemp, A.,

Darvishi, N.,

Casey, A.,

Prance, J. R.,

Saunders, J.,

Tsepelin, V.,

Noble, M. T.,

Rojas, X.,

Zhang, K.,

March-Russel, J.,

Leason, E.

2024

Overview

We report the results of radioactivity assays and heat leak calculations for a range of common cryogenic materials, considered for use in the QUEST-DMC superfluid 3 He dark matter detector. The bolometer, instrumented with nanomechanical resonators, will be sensitive to energy deposits from dark matter interactions. Events from radioactive decays and cosmic rays constitute a significant background and must be precisely modelled, using a combination of material screening and Monte Carlo simulations. However, the results presented here are of wider interest for experiments and quantum devices sensitive to minute heat leaks and spurious events, thus we present heat leak per unit mass or surface area for every material studied. This can inform material choices for other experiments, especially if underground operation is considered – where the radiogenic backgrounds will dominate even at shallow depths.

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Publisher

Springer US,Springer Nature B.V

Subject

Atoms & subatomic particles

/ Bolometers

/ Characterization and Evaluation of Materials

/ Condensed Matter Physics

/ Cosmic rays

/ Dark matter

/ Energy