Searching for dark matter with plasma haloscopes
Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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Searching for dark matter with plasma haloscopes. / Millar, Alexander J.; Anlage, Steven M.; Balafendiev, Rustam; Belov, Pavel; van Bibber, Karl; Conrad, Jan; Demarteau, Marcel; Droster, Alexander; Dunne, Katherine; Rosso, Andrea Gallo; Gudmundsson, Jon E.; Jackson, Heather; Kaur, Gagandeep; Klaesson, Tove; Kowitt, Nolan; Lawson, Matthew; Leder, Alexander; Miyazaki, Akira; Morampudi, Sid; V. Peiris, Hiranya; Roising, Henrik S.; Singh, Gaganpreet; Sun, Dajie; Thomas, Jacob H.; Wilczek, Frank; Withington, Stafford; Wooten, Mackenzie; Dilling, Jens; Febbraro, Michael; Knirck, Stefan; Marvinney, Claire.
I: Physical Review D, Bind 107, Nr. 5, 055013, 10.03.2023.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Searching for dark matter with plasma haloscopes
AU - Millar, Alexander J.
AU - Anlage, Steven M.
AU - Balafendiev, Rustam
AU - Belov, Pavel
AU - van Bibber, Karl
AU - Conrad, Jan
AU - Demarteau, Marcel
AU - Droster, Alexander
AU - Dunne, Katherine
AU - Rosso, Andrea Gallo
AU - Gudmundsson, Jon E.
AU - Jackson, Heather
AU - Kaur, Gagandeep
AU - Klaesson, Tove
AU - Kowitt, Nolan
AU - Lawson, Matthew
AU - Leder, Alexander
AU - Miyazaki, Akira
AU - Morampudi, Sid
AU - V. Peiris, Hiranya
AU - Roising, Henrik S.
AU - Singh, Gaganpreet
AU - Sun, Dajie
AU - Thomas, Jacob H.
AU - Wilczek, Frank
AU - Withington, Stafford
AU - Wooten, Mackenzie
AU - Dilling, Jens
AU - Febbraro, Michael
AU - Knirck, Stefan
AU - Marvinney, Claire
PY - 2023/3/10
Y1 - 2023/3/10
N2 - We summarize the recent progress of the Axion Longitudinal Plasma Haloscope (ALPHA) Consortium, a new experimental collaboration to build a plasma haloscope to search for axions and dark photons. The plasma haloscope is a novel method for the detection of the resonant conversion of light dark matter to photons. ALPHA will be sensitive to QCD axions over almost a decade of parameter space, potentially discovering dark matter and resolving the strong CP problem. Unlike traditional cavity haloscopes, which are generally limited in volume by the Compton wavelength of the dark matter, plasma haloscopes use a wire metamaterial to create a tuneable artificial plasma frequency, decoupling the wavelength of light from the Compton wavelength and allowing for much stronger signals. We develop the theoretical foundations of plasma haloscopes and discuss recent experimental progress. Finally, we outline a baseline design for ALPHA and show that a full-scale experiment could discover QCD axions over almost a decade of parameter space.
AB - We summarize the recent progress of the Axion Longitudinal Plasma Haloscope (ALPHA) Consortium, a new experimental collaboration to build a plasma haloscope to search for axions and dark photons. The plasma haloscope is a novel method for the detection of the resonant conversion of light dark matter to photons. ALPHA will be sensitive to QCD axions over almost a decade of parameter space, potentially discovering dark matter and resolving the strong CP problem. Unlike traditional cavity haloscopes, which are generally limited in volume by the Compton wavelength of the dark matter, plasma haloscopes use a wire metamaterial to create a tuneable artificial plasma frequency, decoupling the wavelength of light from the Compton wavelength and allowing for much stronger signals. We develop the theoretical foundations of plasma haloscopes and discuss recent experimental progress. Finally, we outline a baseline design for ALPHA and show that a full-scale experiment could discover QCD axions over almost a decade of parameter space.
KW - PROXIMITY
KW - AXIONS
KW - BAND
KW - CONSTRAINTS
KW - INDUCTANCE
KW - INVARIANCE
KW - IMPEDANCE
KW - LIMITS
KW - NOISE
U2 - 10.1103/PhysRevD.107.055013
DO - 10.1103/PhysRevD.107.055013
M3 - Journal article
VL - 107
JO - Physical Review D
JF - Physical Review D
SN - 2470-0010
IS - 5
M1 - 055013
ER -
ID: 343131659