Hydrogen and muonic-Hydrogen Atomic Spectra in Non-commutative Space-Time

Abstract

Comparing electronic Hydrogen with muonic Hydrogen shows that the discrepancy in measurement of the Lamb shift in the both systems are relatively of order of (mμme)4-5. We explore the spectrum of Hydrogen atom in noncommutative QED to compare the noncommutative effects on the both bound states. We show that in the Lorentz violating noncommutative QED the ratio of NC-corrections is (mμme)3 while in the Lorentz conserving NCQED is (mμme)5. An uncertainty about 1 \,Hz 3\,kHz in the Lamb shift of Hydrogen atom leads to an NC correction about 10 \,MHz in the Lorentz violating noncommutative QED and about 400 \,GHz in the Lorentz conserving noncommutative QED.