Abstract
Hydrogen Lyman-α radiation (121.56 nm) is important because it allows for the excitation and detection of ground-state hydrogen atoms by a one-photon process. The trapping of antihydrogen, recently reported by the ALPHA collaboration at CERN, has revived interest in Lyman-α lasers. In order to perform high precision tests of matter-antimatter symmetry violations or gravity-antimatter interactions with antihydrogen, laser cooling using the 1s − 2p single photon transition is essential. Recent theoretical simulations predict that even with a pulsed Lyman-α source, laser cooling of antihydrogen would be possible. Here we describe the implementation of a high power vacuum-ultraviolet (VUV) laser at the Lyman-α transition of hydrogen. The VUV light was generated using a two-photon-resonant four-wave mixing process in a phase-matched mixture of krypton and argon. Two wavelengths (ω R → 202.31 and ω T → 602.56 nm) were mixed in a sum-difference scheme (ω VUV = 2ω R − ω T ) with a two-photon resonance at (4s 24p 55p[1/2]0 ← 4s 24p 6(1S 0)) transition in Kr. With an Ar/Kr mixture of 3.9:1 we obtained 10 ns pulses of 0.1 μJ of energy at a repetition rate of 10 Hz.
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Proceedings of the 11th International Conference on Low Energy Antiproton Physics (LEAP 2013) held in Uppsala, Sweden, 10–15 June, 2013
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Michan, J., Fujiwara, M. & Momose, T. Development of a Lyman-α laser system for spectroscopy and laser cooling of antihydrogen. Hyperfine Interact 228, 77–80 (2014). https://doi.org/10.1007/s10751-014-1017-8
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DOI: https://doi.org/10.1007/s10751-014-1017-8