Add to ORKGThe FAST experiment intends to measure the muon lifetime to a precision of 1 part per million (1 ppm). The experiment and its performances- also validated by the results from a testbeam held in PSI at the end of 2003-are described here. 1
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
The MuLan experiment will measure the lifetime of the positive muon to 1ppm. Within the Standard Mod...
We report the result of a measurement of the positive muon lifetime τμ to one part-per-million (ppm)...
The goal of the FAST experiment is the precise measurement of the muon lifetime, to the accuracy of ...
We report a measurement of the positive muon lifetime to a precision of 1.0 ppm; it is the most prec...
An initial measurement of the lifetime of the positive muon to a precision of 16 parts per million (...
An initial measurement of the lifetime of the positive muon to a precision of 16 parts per million (...
We present a detailed report of the method, setup, analysis, and results of a precision measurement ...
The Fiber Active Scintillator Target (FAST) is an imaging particle detector intended for high precis...
AbstractThe Fibre Active Scintillator Target (FAST) experiment at the Paul Scherrer Institute was de...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
The MuLan experiment will measure the lifetime of the positive muon to 1ppm. Within the Standard Mod...
We report the result of a measurement of the positive muon lifetime τμ to one part-per-million (ppm)...
The goal of the FAST experiment is the precise measurement of the muon lifetime, to the accuracy of ...
We report a measurement of the positive muon lifetime to a precision of 1.0 ppm; it is the most prec...
An initial measurement of the lifetime of the positive muon to a precision of 16 parts per million (...
An initial measurement of the lifetime of the positive muon to a precision of 16 parts per million (...
We present a detailed report of the method, setup, analysis, and results of a precision measurement ...
The Fiber Active Scintillator Target (FAST) is an imaging particle detector intended for high precis...
AbstractThe Fibre Active Scintillator Target (FAST) experiment at the Paul Scherrer Institute was de...
The mean life of the positive muon has been measured to a precision of 11 ppm using a low-energy, pu...
The MuLan experiment will measure the lifetime of the positive muon to 1ppm. Within the Standard Mod...
We report the result of a measurement of the positive muon lifetime τμ to one part-per-million (ppm)...