Precision calculation of the recoil-finite-size correction for the hyperfine splitting in muonic and electronic hydrogen

We present a high-precision calculation of the recoil-finite-size correction to the hyperfine splitting (HFS) in muonic and electronic hydrogen based on nucleon electromagnetic form factors obtained from dispersion theory. This will help guide the upcoming searches of the HFS transition in muonic hydrogen, and will allow a precise determination of the sum of the polarizability and Zemach radius contributions when this transition is found.

Automated summary

We present a high-precision calculation method for the recoil-finite-size correction to the hyperfine splitting in muonic and electronic hydrogen, based on nucleon electromagnetic form factors obtained from dispersion theory. This method will aid in the upcoming searches for the hyperfine splitting transition in muonic hydrogen and provide an accurate determination of the sum of the polarizability and Zemach radius contributions when this transition is discovered.