Measured Properties of an Antihydrogen Beam
Abstract
We report a factor of 100 increase in the antihydrogen beam intensity downstream of ASACUSA's Cusp trap: 320 atoms detected per 15-minute run. The beam contains many Rydberg atoms, which we selectively ionize to determine their velocity and binding energy. The time of flight signal is modeled using a 1D Maxwellian velocity distribution with a temperature of 1500\,K, which is close to the measured antiproton plasma temperature. A numerical simulation reproduces the observed distribution of binding energies and suggests that about 16\% of the atoms may be in the ground state.
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