Acceleration of positive muons by a radio-frequency cavity

Abstract

Acceleration of positive muons from thermal energy to 100~keV has been demonstrated. Thermal muons were generated by resonant multi-photon ionization of muonium atoms emitted from a sheet of laser-ablated aerogel. The thermal muons were first electrostatically accelerated to 5.7~keV, followed by further acceleration to 100 keV using a radio-frequency quadrupole. The transverse normalized emittance of the accelerated muons in the horizontal and vertical planes were 0.85 0.25 ~(stat.)~+0.22-0.13 ~(syst.)~π~mm·mrad and 0.32 0.03~(stat.) +0.05-0.02 ~(syst.)~π~mm·mrad, respectively. The measured emittance values demonstrated phase space reduction by a factor of 2.0× 102 (horizontal) and 4.1× 102 (vertical) allowing good acceleration efficiency. These results pave the way to realize the first-ever muon accelerator for a variety of applications in particle physics, material science, and other fields.

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