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The subtraction contribution to the muonic-hydrogen Lamb shift: a point for lattice QCD calculations of the polarizability effect
Hagelstein, F., & Pascalutsa, V. (2021). The subtraction contribution to the muonic-hydrogen Lamb shift: a point for lattice QCD calculations of the polarizability effect. Nuclear Physics A, 1016, 122323 (8 pp.). https://doi.org/10.1016/j.nuclphysa.2021.122323
Theory of the 2S-2P Lamb shift and 2S hyperfine splitting in muonic hydrogen
Antognini, A., Kottmann, F., Biraben, F., Indelicato, P., Nez, F., & Pohl, R. (2013). Theory of the 2S-2P Lamb shift and 2S hyperfine splitting in muonic hydrogen. Annals of Physics, 331, 127-145. https://doi.org/10.1016/j.aop.2012.12.003
Laser spectroscopy of muonic hydrogen
Pohl, R., Antognini, A., Amaro, F. D., Biraben, F., Cardoso, J. M. R., Covita, D. S., … Kottmann, F. (2013). Laser spectroscopy of muonic hydrogen. Annalen der Physik, 525(8-9), 647-651. https://doi.org/10.1002/andp.201300058
The size of the proton: from the Lamb-shift in muonic hydrogen
Nebel, T., Antognini, A., Amaro, F. D., Biraben, F., Cardoso, J. M. R., Covita, D. S., … Pohl, R. (2012). The size of the proton: from the Lamb-shift in muonic hydrogen. Hyperfine Interactions, 212(1-3), 185-194. https://doi.org/10.1007/s10751-011-0386-5
Muonic hydrogen spectroscopy: the proton radius puzzle
Antognini, A., Nez, F., Amaro, F. D., Biraben, R., Cardoso, J. M. R., Covita, D. S., … Pohl, R. (2011). Muonic hydrogen spectroscopy: the proton radius puzzle. In C. Fabre, V. Zadkov, & K. Drabovich (Eds.), Proceedings of SPIE: Vol. 7993. ICONO 2010: international conference on coherent and nonlinear optics (p. 79931K (10 pp.). https://doi.org/10.1117/12.881629
Is the proton radius a player in the redefinition of the International System of Units?
Nez, F., Antognini, A., Amaro, F. D., Biraben, F., Cardoso, J. M. R., Covita, D., … Pohl, R. (2011). Is the proton radius a player in the redefinition of the International System of Units? Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 369(1953), 4064-4077. https://doi.org/10.1098/rsta.2011.0233
Powerful fast triggerable 6 μm laser for the muonic hydrogen 2S-Lamb shift experiment
Antognini, A., Amaro, F. D., Biraben, F., Cardoso, J. M. R., Conde, C. A. N., Covita, D. S., … Veloso, J. F. C. A. (2005). Powerful fast triggerable 6 μm laser for the muonic hydrogen 2S-Lamb shift experiment. Optics Communications, 253(4-6), 362-374. https://doi.org/10.1016/j.optcom.2005.04.079
Resonant scattering of muonic hydrogen atoms and dynamics of the muonic molecular complex
Fujiwara, M. C., Adamczak, A., Bailey, J. M., Beer, G. A., Beveridge, J. L., Faifman, M. P., … Zmeskal, J. (2001). Resonant scattering of muonic hydrogen atoms and dynamics of the muonic molecular complex. Hyperfine Interactions, 138, 245-248. https://doi.org/10.1023/A:1020896011028
Scattering of light exotic atoms in excited states
Jensen, T. S., & Markushin, V. E. (2001). Scattering of light exotic atoms in excited states. Hyperfine Interactions, 138, 113-116. https://doi.org/10.1023/A:1020859002850
Kinetics of atomic cascade in light exotic atoms
Markushin, V. E., & Jensen, T. S. (2001). Kinetics of atomic cascade in light exotic atoms. Hyperfine Interactions, 138, 71-76. https://doi.org/10.1023/A:1020842631984
Advantages and limitations of solid layer experiments in muon catalyzed fusion
Marshall, G. M., Adamczak, A., Bailey, J. M., Beveridge, J. L., Beer, G. A., Brewer, J. H., … Zmeskal, J. (2001). Advantages and limitations of solid layer experiments in muon catalyzed fusion. Hyperfine Interactions, 138, 203-211. https://doi.org/10.1023/A:1020835825140
Observation of the molecular quenching of <em>μ</em>p(2S) atoms
Pohl, R., Daniel, H., Hartmann, F. J., Hauser, P., Liu, Y. W., Kottmann, F., … Taqqu, D. (2001). Observation of the molecular quenching of μp(2S) atoms. Hyperfine Interactions, 138, 35-40. https://doi.org/10.1023/A:1020830229258