Publications
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“Imaging antimatter with a Micromegas detector”, Nuclear Inst. and Methods in Physics Research, B, vol. 422, pp. 1–6, 2018.
, “Imaging antimatter with a Micromegas detector”, Nuclear Inst. and Methods in Physics Research, B, vol. 422, pp. 1–6, 2018.
, “In-beam measurement of the hydrogen hyperfine splitting - towards antihydrogen spectroscopy”, Nature Communications, vol. 8, pp. 1–9, 2017.
, “Ionization of Helium and Argon by Very Slow Antiproton Impact”, Physical Review LettersPhys. Rev. Lett., vol. 101, p. 043201 -, 2008.
, “Ionization of Helium and Argon by Very Slow Antiproton Impact”, Physical Review LettersPhys. Rev. Lett., vol. 101, p. 043201 -, 2008.
, “Ionization of Helium and Argon by Very Slow Antiproton Impact”, Physical Review LettersPhys. Rev. Lett., vol. 101, p. 043201 -, 2008.
, “Manipulation and Transport of Antiprotons for an Efficient Production of Antihydrogen Atoms”, JPS Conf. Proc., vol. 18, p. 011008, 2017.
, “Manipulation and Transport of Antiprotons for an Efficient Production of Antihydrogen Atoms”, JPS Conf. Proc., vol. 18, p. 011008, 2017.
, “Measurement of the hyperfine structure of antihydrogen in a beam”, Hyperfine Interactions, vol. 215, pp. 1-8, 2013.
, “Measurement of the principal quantum number distribution in a beam of antihydrogen atoms”, vol. 75, no. 3, p. 91, 2021.
, “Measurement of the principal quantum number distribution in a beam of antihydrogen atoms”, vol. 75, no. 3, p. 91, 2021.
, “Measurement of the principal quantum number distribution in a beam of antihydrogen atoms”, vol. 75, no. 3, p. 91, 2021.
, “Measurement of the principal quantum number distribution in a beam of antihydrogen atoms”, vol. 75, no. 3, p. 91, 2021.
, “Measurements and 3D Reconstruction of Antimatter Annihilations with the ASACUSA Micromegas Tracker”, JPS Conf. Proc., vol. 18, p. 011010, 2017.
, “Measurements and 3D Reconstruction of Antimatter Annihilations with the ASACUSA Micromegas Tracker”, JPS Conf. Proc., vol. 18, p. 011010, 2017.
, “Measurements and 3D Reconstruction of Antimatter Annihilations with the ASACUSA Micromegas Tracker”, JPS Conf. Proc., vol. 18, p. 011010, 2017.
, “Minimizing plasma temperature for antimatter mixing experiments”, EPJ Web Conf., vol. 262, p. 01007, 2022.
, “Minimizing plasma temperature for antimatter mixing experiments”, EPJ Web Conf., vol. 262, p. 01007, 2022.
, “Minimizing plasma temperature for antimatter mixing experiments”, EPJ Web Conf., vol. 262, p. 01007, 2022.
, “Minimizing plasma temperature for antimatter mixing experiments”, EPJ Web Conf., vol. 262, p. 01007, 2022.
, “Minimizing plasma temperature for antimatter mixing experiments”, EPJ Web Conf., vol. 262, p. 01007, 2022.
, “Monte-Carlo based performance assessment of ASACUSA’s antihydrogen detector”, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 910, pp. 90 - 95, 2018.
, “Monte-Carlo based performance assessment of ASACUSA’s antihydrogen detector”, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 910, pp. 90 - 95, 2018.
, “Monte-Carlo based performance assessment of ASACUSA’s antihydrogen detector”, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 910, pp. 90 - 95, 2018.
, “Multi-ring trap as a reservoir of cooled antiprotons”, AIP Conference Proceedings, vol. 498, pp. 59-64, 1999.
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