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Testing Parity with Atomic Radiative Capture of μ^-

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arxiv 1205.6525 v1 pith:OMOW3C4J submitted 2012-05-30 hep-ph hep-exnucl-exnucl-thphysics.atom-ph

Testing Parity with Atomic Radiative Capture of μ^-

classification hep-ph hep-exnucl-exnucl-thphysics.atom-ph
keywords atomiccaptureradiativebeamsdirectfacilitiesintensitymuon
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The next generation of "intensity frontier" facilities will bring a significant increase in the intensity of sub-relativistic beams of $\mu^-$. We show that the use of these beams in combination with thin targets of $Z\sim 30$ elements opens up the possibility of testing parity-violating interactions of muons with nuclei via direct radiative capture of muons into atomic 2S orbitals. Since atomic capture preserves longitudinal muon polarization, the measurement of the gamma ray angular asymmetry in the single photon $2S_{1/2}$-$1S_{1/2}$ transition will offer a direct test of parity. We calculate the probability of atomic radiative capture taking into account the finite size of the nucleus to show that this process can dominate over the usual muonic atom cascade, and that the as yet unobserved single photon $2S_{1/2}$-$1S_{1/2}$ transition in muonic atoms can be detected in this way using current muon facilities.

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