Title :
Improved determination of the fine structure constant based on the electron g-2 and muonium hyperfine structure
Author :
Kinoshita, Toichiro
Author_Institution :
Newman Lab. of Nucl. Studies, Cornell Univ., Ithaca, NY, USA
fDate :
4/1/1995 12:00:00 AM
Abstract :
Preliminary results of two accurate determinations of the fine structure constant α based on quantum electrodynamics are reported. One is obtained from an improved evaluation of the sixth-order and eighth-order radiative corrections to the electron anomalous magnetic moment ae. This leads to the most accurate value of α obtained thus far, with an uncertainty of about 0.005 part per million (ppm). The other is the outcome of an evaluation of the complete α2(Zα) contribution and the leading α4 and α3(me/mμ) contributions to the hyperfine structure of the muonium ground state. This gives a value of α with an uncertainty of 0.134 ppm. These results also lead to the most accurate determination of the muon mass
Keywords :
constants; electromagnetic corrections; electrons; fine structure; hyperfine structure; lepton magnetic moment; lepton mass; muonium; muons; quantum electrodynamics; eighth-order radiative corrections; electron anomalous magnetic moment; fine structure constant; muon mass; muonium ground state; muonium hyperfine structure; quantum electrodynamics; sixth-order radiative corrections; uncertainty; Electrodynamics; Electrons; Frequency; Laboratories; Magnetic moments; Measurement uncertainty; Mesons; Rail to rail inputs; Stationary state;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
