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Search for a Scalar Axion-like Particle at 34 GHz

Light axion-like particles (ALPs) that couple to two photons are allowed in a number of proposed extensions to the Standard Model of elementary particles. Of particular interest from a theoretical and observational standpoint is the energy regime near 0.1 meV. We present results from a pilot experiment to search for a signal from a 0.14 meV scalar ALP by way of its coupling to two photons. Using a copper resonant cavity cooled to four degrees Kelvin while immersed in a seven Tesla magnetic field, and coupled to a low noise cryogenic amplifier and room temperature receiver, we exclude an ALP-driven excess of 34 GHz photons with g$>10^{-8}$/GeV with 5$σ$ confidence. We discuss the ramifications of this initial measurement as well as planned modifications to the experiment for increased sensitivity.

preprint2013arXivOpen access
P. L. SlocumO. K. BakerJ. L. HirshfieldY. JiangG. KazakevitchS. KazakovM. A. LaPointeA. T. MalagonA. J. MartinS. ShchelkunovA. Szymkowiak
astro-ph.COhep-exphysics.ins-det
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Open access11 authors3 topics
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P. L. SlocumO. K. BakerJ. L. HirshfieldY. JiangG. KazakevitchS. KazakovM. A. LaPointeA. T. MalagonA. J. MartinS. ShchelkunovA. Szymkowiak

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