Add to ORKGDr. Michael Eides will discuss physics of exotic muonium and positronium atoms, high precision quantum electrodynamic calculations of energy levels, and determination of the electron-muon mass ratio. He will introduce the proton radius puzzle, discuss briefly the experimental data on muonic hydrogen, deuterium, and helium, and explain the status of the respective theory
The proton radius puzzle is the difference between the proton radius as measured with electron scatt...
The existence and importance of the proton radius puzzle, observed via a Lamb shift measurement in m...
The muonium atom is the purely leptonic bound state of a positive muon and an electron. It has a lif...
International audienceThe proton, discovered 100 years ago1, is an essential building block of visib...
The proton radius puzzle is the difference between the proton radius as measured with electron scatt...
The proton radius puzzle is the disagreement between the much more precise radius determined from mu...
The hydrogen-like muonium atom (M=mu(+)e(-)) offers possiblitites to measure fundamental constants m...
While consistent results for the charge radius of the proton have been extracted from elastic electr...
International audienceHigh-precision measurements of the proton radius from laser spectroscopy of mu...
Current status of the proton size puzzle from experimental and theoretical points of view is briefly...
Muonium, the atom which consists of a positive muon and an electron, has been discovered by a team l...
Scientists are making attempts to solve proton radius puzzle. In this paper, the calculated value ma...
The limits of our present knowledge of quantum elect?odynamics, and the motivation for extending tha...
We review the status of the proton charge radius puzzle. Emphasis is given to the various experiment...
Systematic differences in the the proton’s charge radius, as determined by ordinary atoms and muonic...
The proton radius puzzle is the difference between the proton radius as measured with electron scatt...
The existence and importance of the proton radius puzzle, observed via a Lamb shift measurement in m...
The muonium atom is the purely leptonic bound state of a positive muon and an electron. It has a lif...
International audienceThe proton, discovered 100 years ago1, is an essential building block of visib...
The proton radius puzzle is the difference between the proton radius as measured with electron scatt...
The proton radius puzzle is the disagreement between the much more precise radius determined from mu...
The hydrogen-like muonium atom (M=mu(+)e(-)) offers possiblitites to measure fundamental constants m...
While consistent results for the charge radius of the proton have been extracted from elastic electr...
International audienceHigh-precision measurements of the proton radius from laser spectroscopy of mu...
Current status of the proton size puzzle from experimental and theoretical points of view is briefly...
Muonium, the atom which consists of a positive muon and an electron, has been discovered by a team l...
Scientists are making attempts to solve proton radius puzzle. In this paper, the calculated value ma...
The limits of our present knowledge of quantum elect?odynamics, and the motivation for extending tha...
We review the status of the proton charge radius puzzle. Emphasis is given to the various experiment...
Systematic differences in the the proton’s charge radius, as determined by ordinary atoms and muonic...
The proton radius puzzle is the difference between the proton radius as measured with electron scatt...
The existence and importance of the proton radius puzzle, observed via a Lamb shift measurement in m...
The muonium atom is the purely leptonic bound state of a positive muon and an electron. It has a lif...