Add to ORKGThe MuLan experiment will measure the lifetime of the positive muon to 1ppm. Within the Standard Model framework, this will permit a determination of the Fermi Constant to 0.5ppm. I present an update on our progress and achievements to date
The mean life of the positive muon has been measured to part-per-million precision using a time-stru...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
for the MuLan Collaboration a The Fermi constant, GF, describes the strength of the weak force and i...
We present a detailed report of the method, setup, analysis, and results of a precision measurement ...
We report the result of a measurement of the positive muon lifetime τμ to one part-per-million (ppm)...
We report a measurement of the positive muon lifetime to a precision of 1.0 ppm; it is the most prec...
The mean life of the positive muon has been measured to part-per-million precision using a time-stru...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
for the MuLan Collaboration a The Fermi constant, GF, describes the strength of the weak force and i...
We present a detailed report of the method, setup, analysis, and results of a precision measurement ...
We report the result of a measurement of the positive muon lifetime τμ to one part-per-million (ppm)...
We report a measurement of the positive muon lifetime to a precision of 1.0 ppm; it is the most prec...
The mean life of the positive muon has been measured to part-per-million precision using a time-stru...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...