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Some laser spectroscopy experiments carried out by the Atomic Spectroscopy and Collisions Using Slow Antiprotons (ASACUSA) collaboration to measure the single-photon transition frequencies of antiprotonic helium (p¯He+≡p¯+He2++e−$\overline {p}\text {He}^{+}\equiv \overline… Click to show full abstract
Some laser spectroscopy experiments carried out by the Atomic Spectroscopy and Collisions Using Slow Antiprotons (ASACUSA) collaboration to measure the single-photon transition frequencies of antiprotonic helium (p¯He+≡p¯+He2++e−$\overline {p}\text {He}^{+}\equiv \overline {p}+\text {He}^{2+}+e^{-}$) atoms are reviewed. The p¯He+$\overline {p}\text {He}^{+}$ were cooled to temperature T = 1.5–1.7 K by buffer-gas cooling in a cryogenic gas target, thus reducing the thermal Doppler width in the single-photon resonance lines. The antiproton-to-electron mass ratio was determined as Mp¯/me=1836.1526734(15)$M_{\overline {p}}/m_{e}= 1836.1526734(15)$ by comparisons with the results of three-body quantum electrodynamics calculations. This agreed with the known proton-to-electron mass ratio.
Journal Title: Hyperfine Interactions
Year Published: 2018
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