Energy loss due to defect creation in solid state detectors

Matti Heikinheimo; Sebastian Sassi; Kimmo Tuominen; Kai Nordlund; Nader Mirabolfathi

doi:10.21468/SciPostPhysProc.12.010

Energy loss due to defect creation in solid state detectors

Matti Heikinheimo, Sebastian Sassi, Kimmo Tuominen, Kai Nordlund, Nader Mirabolfathi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

Abstract

The threshold displacement energy in solid state detector materials varies from several eV to ≲≲ 100 eV. If a stable or long lived defect is created as a result of a nuclear recoil event, some part of the recoil energy is stored in the deformed lattice and is therefore not observable in a phonon detector. Thus, an accurate model of this effect is necessary for precise calibration of the recoil energy measurement in low threshold phonon detectors. Furthermore, the sharpness of the defect creation threshold varies between materials. For a hard material such as diamond, the sharp threshold will cause a sudden onset of the energy loss effect, resulting in a prominent peak in the observed recoil spectrum just below the threshold displacement energy. We describe how this effect can be used to discriminate between nuclear and electron recoils using just the measured recoil spectrum.

Original language	English
Title of host publication	14th International Conference on Identification of Dark Matter (IDM2022)
Number of pages	6
Publisher	SCIPOST FOUNDATION
Publication date	3 Jul 2023
DOIs	https://doi.org/10.21468/SciPostPhysProc.12.010
Publication status	Published - 3 Jul 2023
MoE publication type	A4 Article in conference proceedings
Event	14th International Conference on Identification of Dark Matter - Technical University Vienna, Vienna, Austria Duration: 18 Jul 2022 → 22 Jul 2022

Publication series

Name	SciPost Physics Proceedings
Publisher	The SciPost Foundation
Number	010
Volume	12
ISSN (Electronic)	2666-4003

Fields of Science

114 Physical sciences

Access to Document

10.21468/SciPostPhysProc.12.010Licence: CC BY

SciPostPhysProc_12_010Final published version, 477 KBLicence: CC BY

Cite this

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title = "Energy loss due to defect creation in solid state detectors",

abstract = "The threshold displacement energy in solid state detector materials varies from several eV to ≲≲ 100 eV. If a stable or long lived defect is created as a result of a nuclear recoil event, some part of the recoil energy is stored in the deformed lattice and is therefore not observable in a phonon detector. Thus, an accurate model of this effect is necessary for precise calibration of the recoil energy measurement in low threshold phonon detectors. Furthermore, the sharpness of the defect creation threshold varies between materials. For a hard material such as diamond, the sharp threshold will cause a sudden onset of the energy loss effect, resulting in a prominent peak in the observed recoil spectrum just below the threshold displacement energy. We describe how this effect can be used to discriminate between nuclear and electron recoils using just the measured recoil spectrum.",

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Heikinheimo, M , Sassi, S , Tuominen, K , Nordlund, K & Mirabolfathi, N 2023, Energy loss due to defect creation in solid state detectors. in 14th International Conference on Identification of Dark Matter (IDM2022) . SciPost Physics Proceedings, no. 010, vol. 12, SCIPOST FOUNDATION, 14th International Conference on Identification of Dark Matter, Vienna, Austria, 18/07/2022. https://doi.org/10.21468/SciPostPhysProc.12.010

Energy loss due to defect creation in solid state detectors. / Heikinheimo, Matti ; Sassi, Sebastian ; Tuominen, Kimmo et al.
14th International Conference on Identification of Dark Matter (IDM2022) . SCIPOST FOUNDATION, 2023. (SciPost Physics Proceedings; Vol. 12, No. 010).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Scientific › peer-review

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AB - The threshold displacement energy in solid state detector materials varies from several eV to ≲≲ 100 eV. If a stable or long lived defect is created as a result of a nuclear recoil event, some part of the recoil energy is stored in the deformed lattice and is therefore not observable in a phonon detector. Thus, an accurate model of this effect is necessary for precise calibration of the recoil energy measurement in low threshold phonon detectors. Furthermore, the sharpness of the defect creation threshold varies between materials. For a hard material such as diamond, the sharp threshold will cause a sudden onset of the energy loss effect, resulting in a prominent peak in the observed recoil spectrum just below the threshold displacement energy. We describe how this effect can be used to discriminate between nuclear and electron recoils using just the measured recoil spectrum.

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