Add to ORKGThe current status of the determination of corrections to the hyperfine splitting of the ground state in hydrogen is considered. Improved calculations are provided taking into account the most recent value for the proton charge radius. Comparing experimental data with predictions for the hyperfine splitting, the Zemach radius of the proton is deduced to be 1.047(19) fm. Employing an exponential parametrization for the electromagnetic form factors we determine the magnetic radius of the proton to be 0.759(39) fm. Both values are compared with the corresponding ones derived from the data obtained in electron-proton scattering experiments
AbstractWe calculate the Zemach moments of hydrogen and deuterium for the first time using only the ...
International audienceThe charge radius of the proton can be determined using two different experime...
The proton is the primary building block of the visible Universe, but many of its properties—such as...
The ground-state hyperfine splittings in hydrogen and muonium are extremely well measured. The diffe...
High-precision measurements and calculations of energy spectra of hydrogen-like atoms provide tests ...
Studies of the hyperfine splitting in hydrogen are strongly motivated by the level of accuracy achie...
We analyze the recent electron-proton scattering data from Mainz using a dispersive framework that r...
The discrepancy between the proton charge radius extracted from the muonic hydrogen Lamb shift measu...
This thesis is a calculation of the energy shift in the hyperfine structure of atomic H due to the f...
The work is devoted to a consideration of the different determinations of the proton charge radius. ...
We present a high-precision calculation of the recoil–finite-size correction to the hyperfine splitt...
In previous papers, corrections to the hyperfine structure (hfs) in hydrogen of relative order αm / ...
The ongoing experimental efforts to measure the hyperfine transition in muonic hydrogen prompt an ac...
The static properties of hadrons, such as their radii and other moments of the electric and magnetic...
We consider the proton structure corrections to hydrogen ground-state hyperfine structure, focusing ...
AbstractWe calculate the Zemach moments of hydrogen and deuterium for the first time using only the ...
International audienceThe charge radius of the proton can be determined using two different experime...
The proton is the primary building block of the visible Universe, but many of its properties—such as...
The ground-state hyperfine splittings in hydrogen and muonium are extremely well measured. The diffe...
High-precision measurements and calculations of energy spectra of hydrogen-like atoms provide tests ...
Studies of the hyperfine splitting in hydrogen are strongly motivated by the level of accuracy achie...
We analyze the recent electron-proton scattering data from Mainz using a dispersive framework that r...
The discrepancy between the proton charge radius extracted from the muonic hydrogen Lamb shift measu...
This thesis is a calculation of the energy shift in the hyperfine structure of atomic H due to the f...
The work is devoted to a consideration of the different determinations of the proton charge radius. ...
We present a high-precision calculation of the recoil–finite-size correction to the hyperfine splitt...
In previous papers, corrections to the hyperfine structure (hfs) in hydrogen of relative order αm / ...
The ongoing experimental efforts to measure the hyperfine transition in muonic hydrogen prompt an ac...
The static properties of hadrons, such as their radii and other moments of the electric and magnetic...
We consider the proton structure corrections to hydrogen ground-state hyperfine structure, focusing ...
AbstractWe calculate the Zemach moments of hydrogen and deuterium for the first time using only the ...
International audienceThe charge radius of the proton can be determined using two different experime...
The proton is the primary building block of the visible Universe, but many of its properties—such as...