Authors
Alexander J Millar, Steven M Anlage, Rustam Balafendiev, Pavel Belov, Karl Van Bibber, Jan Conrad, Marcel Demarteau, Alexander Droster, Katherine Dunne, Andrea Gallo Rosso, Jon E Gudmundsson, Heather Jackson, Gagandeep Kaur, Tove Klaesson, Nolan Kowitt, Matthew Lawson, Alexander Leder, Akira Miyazaki, Sid Morampudi, Hiranya V Peiris, Henrik S Røising, Gaganpreet Singh, Dajie Sun, Jacob H Thomas, Frank Wilczek, Stafford Withington, Mackenzie Wooten, (Endorsers), Jens Dilling, Michael Febbraro, Stefan Knirck, Claire Marvinney
Publication date
2023/3/1
Journal
Physical Review D
Volume
107
Issue
5
Pages
055013
Publisher
American Physical Society
Description
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 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 …
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Scholar articles
AJ Millar, SM Anlage, R Balafendiev, P Belov… - Physical Review D, 2023