We report a new measurement of the ratio $h/m_{\mathrm{Rb}}$ between the Planck constant and the mass of $^{87}\mathrm{Rb}$ atom. A new value of the fine structure constant is deduced, $\alpha^{-1}=137.035\,999\,037\,(91)$ with a relative uncertainty of $6.6\times 10^{-10}$. Using this determination, we obtain a theoretical value of the electron anomaly $a_\mathrm{e}=0.001~159~652~181~13(84)$ which is in agreement with the experimental measurement of Gabrielse ($a_\mathrm{e}=0.001~159~652~180~73(28)$). The comparison of these values provides the most stringent test of the QED. Moreover, the precision is large enough to verify for the first time the muonic and hadronic contributions to this anomaly.
International Journal of Physical Research (IJPR)is a peer reviewed, open access international scientific journal dedicated for rapid publication of high quality original research articles as well as review articles concerned with the description, solutio
All about Reviews: The Constants of Nature: The Numbers That Encode the Deepest Secrets of the Universe by John Barrow. LibraryThing is a cataloging and social networking site for booklovers