Sciences & technologie. A, sciences exactes
Volume 0, Numéro 41, Pages 110-114
2015-06-30
Authors : Zaim S . Guelmamene H .
In this work we present an important contribution to the non-commutative approach to the hydrogen atom to deal with lamb shift corrections. This can be done by studying the Klein-Gordon equation in a non-commutative spacetime as applied to the Hydrogen atom to extract the energy levels, by considering the second-order corrections in the non commutativity parameter and by comparing with the result of the current experimental results on the Lamb shift of the 2P level to extract a bound on the parameter of non-commutativity. Phenomenologically we show that the non-commutativity effects induce lamb shift corrections.
Klein-Gordon equation, non-commutative space, quantum Hydrogen atom.
Zaim S
.
Eglmmamne H
.
pages 33-36.
Zaim S.
.
Eglmmamne H.
.
pages 110-114.
Ghiti M F
.
Aissaoui H
.
pages 09-12.
Ghiti M. F
.
Aissaoui H.
.
pages 65-69.
Ghiti M. F
.
Aissaoui H
.
pages 65-69.