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Searching for wave-like dark matter with QSHS

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Searching for wave-like dark matter with QSHS. / Bailey, Ian; Chakraborty, Bhaswati; Chapman, Gemma et al.
In: SciPost Physics Proceedings, No. 12, 40, 04.07.2023.

Research output: Contribution to Journal/MagazineConference articlepeer-review

Harvard

Bailey, I, Chakraborty, B, Chapman, G, Daw, EJ, Gallop, J, Gregori, G, Hardy, E, Hao, L, Laird, E, Leek, P, March-Russell, J, Meeson, P, Ó Peatáin, S, Pashkin, Y, Perry, MG, Piscitelli, M, Romans, E, Sarkar, S, Smith, PJ, Song, N, Soni, M, Tan, BK, West, S & Withington, S 2023, 'Searching for wave-like dark matter with QSHS', SciPost Physics Proceedings, no. 12, 40. https://doi.org/10.21468/scipostphysproc.12.040

APA

Bailey, I., Chakraborty, B., Chapman, G., Daw, E. J., Gallop, J., Gregori, G., Hardy, E., Hao, L., Laird, E., Leek, P., March-Russell, J., Meeson, P., Ó Peatáin, S., Pashkin, Y., Perry, M. G., Piscitelli, M., Romans, E., Sarkar, S., Smith, P. J., ... Withington, S. (2023). Searching for wave-like dark matter with QSHS. SciPost Physics Proceedings, (12), Article 40. https://doi.org/10.21468/scipostphysproc.12.040

Vancouver

Bailey I, Chakraborty B, Chapman G, Daw EJ, Gallop J, Gregori G et al. Searching for wave-like dark matter with QSHS. SciPost Physics Proceedings. 2023 Jul 4;(12):40. doi: 10.21468/scipostphysproc.12.040

Author

Bailey, Ian ; Chakraborty, Bhaswati ; Chapman, Gemma et al. / Searching for wave-like dark matter with QSHS. In: SciPost Physics Proceedings. 2023 ; No. 12.

Bibtex

@article{906f4a62917c4e34b3e3ec1bb8a8da7b,
title = "Searching for wave-like dark matter with QSHS",
abstract = "In 2021 the Quantum Sensors for the Hidden Sector (QSHS) collaboration was founded in the UK and received funding to develop and demonstrate quantum devices with the potential to detect hidden sector particles in the \muμeV to 100 \muμeV mass window. The collaboration has been developing a range of devices. It is building a high-field, low-temperature facility at the University of Sheffield to characterise and test the devices in a haloscope geometry. This paper introduces the collaboration{\textquoteright}s motivation, aims, and progress.",
keywords = "Development, Geography, Planning and Development",
author = "Ian Bailey and Bhaswati Chakraborty and Gemma Chapman and Daw, {Edward J.} and John Gallop and Gianluca Gregori and Edward Hardy and Ling Hao and Edward Laird and Peter Leek and John March-Russell and Phil Meeson and {{\'O} Peat{\'a}in}, Sea{\'a}rbhan and Yuri Pashkin and Perry, {Mitchell G.} and Michele Piscitelli and Edward Romans and Subir Sarkar and Smith, {Paul J.} and Ningqiang Song and Mahesh Soni and Tan, {Boon K.} and Stephen West and Stafford Withington",
year = "2023",
month = jul,
day = "4",
doi = "10.21468/scipostphysproc.12.040",
language = "English",
journal = "SciPost Physics Proceedings",
issn = "2666-4003",
publisher = "Stichting SciPost",
number = "12",

}

RIS

TY - JOUR

T1 - Searching for wave-like dark matter with QSHS

AU - Bailey, Ian

AU - Chakraborty, Bhaswati

AU - Chapman, Gemma

AU - Daw, Edward J.

AU - Gallop, John

AU - Gregori, Gianluca

AU - Hardy, Edward

AU - Hao, Ling

AU - Laird, Edward

AU - Leek, Peter

AU - March-Russell, John

AU - Meeson, Phil

AU - Ó Peatáin, Seaárbhan

AU - Pashkin, Yuri

AU - Perry, Mitchell G.

AU - Piscitelli, Michele

AU - Romans, Edward

AU - Sarkar, Subir

AU - Smith, Paul J.

AU - Song, Ningqiang

AU - Soni, Mahesh

AU - Tan, Boon K.

AU - West, Stephen

AU - Withington, Stafford

PY - 2023/7/4

Y1 - 2023/7/4

N2 - In 2021 the Quantum Sensors for the Hidden Sector (QSHS) collaboration was founded in the UK and received funding to develop and demonstrate quantum devices with the potential to detect hidden sector particles in the \muμeV to 100 \muμeV mass window. The collaboration has been developing a range of devices. It is building a high-field, low-temperature facility at the University of Sheffield to characterise and test the devices in a haloscope geometry. This paper introduces the collaboration’s motivation, aims, and progress.

AB - In 2021 the Quantum Sensors for the Hidden Sector (QSHS) collaboration was founded in the UK and received funding to develop and demonstrate quantum devices with the potential to detect hidden sector particles in the \muμeV to 100 \muμeV mass window. The collaboration has been developing a range of devices. It is building a high-field, low-temperature facility at the University of Sheffield to characterise and test the devices in a haloscope geometry. This paper introduces the collaboration’s motivation, aims, and progress.

KW - Development

KW - Geography, Planning and Development

U2 - 10.21468/scipostphysproc.12.040

DO - 10.21468/scipostphysproc.12.040

M3 - Conference article

JO - SciPost Physics Proceedings

JF - SciPost Physics Proceedings

SN - 2666-4003

IS - 12

M1 - 40

ER -