Speaker
Description
In muonic atoms, a single muon replaces all of the atomic electrons, resulting in a 2-body system whose hydrogen-like theory is very well understood. The large muon mass of 200 times the electron mass results in a 200^3 = 10 million fold improved sensitivity of muonic-atom energy levels to nuclear structure.
Using laser spectroscopy, we have investigated the charge radii of Z=1 and 2 (H to 4He). Next we will determine the magnetic "Zemach" radius of the proton.
Within the QUARTET Collaboration at PSI, we will measure Z=3 to 10 (Li to Ne) and beyond by means of X-ray spectroscopy with metallic magnetic calorimeters (MMCs), a new x-ray detector technology with vastly improved energy resolution.
A novel target concept allows x-ray spectroscopy of radioactive atoms. I will report on some recent measurements with a Ge detector array.