Experimental determination of the energy dependence of the rate of the muon transfer reaction from muonic hydrogen to oxygen for collision energies up to 0.1 eV

Michail Stoilov ,K Ishida,E Mocchiutti,F Fuschino,D Bakalov,R Benocci,G Baldazzi,A Sbrizzi,A Adamczak,E Vallazza,M Bonesini,D Cirrincione,M Clemenza,R Sarkar,A Vacchi,A D Hillier,L P Rignanese,C Pizzolotto,S Monzani,A Menegolli,L Tortora,P.j.c King ,M Baruzzo ,Roberta Ramponi ,Petar Danev

doi:10.1103/physreva.107.032823

Experimental determination of the energy dependence of the rate of the muon transfer reaction from muonic hydrogen to oxygen for collision energies up to 0.1 eV

Michail Stoilov , K Ishida + Show 23 more

Open Access

https://doi.org/10.1103/physreva.107.032823

Copy DOI

Journal: Physical review. A, Atomic, molecular, and optical physics	Publication Date: Mar 24, 2023
Citations: 5	License type: other-oa

Affiliation: Bulgarian Academy of Sciences, Institute for Nuclear Research and Nuclear Energy, RIKEN Nishina Center, INFN Sezione di Trieste, INFN Sezione di Bologna, National Institute for Astrophysics, University of Milano-Bicocca, Institute of Nuclear Physics, Polish Academy of Sciences, University of Udine, Indian Centre for Space Physics, Rutherford Appleton Laboratory, University of Pavia, INFN Sezione di Pavia, Roma Tre University, INFN Sezione di Milano, Politecnico di Milano

#Ground State Of Muonic Hydrogen #Hyperfine Splitting In Muonic Hydrogen + Show 8 more

Abstract
Full-Text PDF
Similar Papers

Abstract

We report the experimental determination of the collision-energy dependence of the muon transfer rate from the ground state of muonic hydrogen to oxygen at near-thermal energies. A sharp increase by nearly an order of magnitude in the energy range 0--70 meV was found that is not observed in other gases. The results set a reliable reference for quantum-mechanical calculations of low-energy processes with exotic atoms and provide firm ground for the measurement of the hyperfine splitting in muonic hydrogen and the determination of the Zemach radius of the proton by the FAMU collaboration.

Full Text