Scattering of pμ muonic atoms in solid hydrogen
Abstract
We present the results of experimental and theoretical study of the scattering of low energy pμ atoms in solid hydrogen cooled to 3 K. The resulting emission of low energy pμ atoms from the hydrogen layer into the adjacent vacuum was much higher than that predicted by calculations which ignored the solid nature of the hydrogen. New differential scattering cross sections have been calculated for the collisions of pμ atoms on solid hydrogen to acount for its quantum crystalline nature. Analysis of the experimental data performed using such cross sections shows the important role of the coherent scattering in pμ atom diffusion. For pμ energies lower than the Bragg cutoff limit (2 meV) the elastic Bragg scattering vanishes which makes the total scattering cross section fall by several orders of magnitude, and thus the hydrogen target becomes transparent allowing the emission of cold pμ atoms to occur.
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