6533b821fe1ef96bd127c50c
RESEARCH PRODUCT
μ-e conversion in nuclei versus μ→e γ: an effective field theory point of view
M. RaidalA. Santamariasubject
Loop (topology)PhysicsNuclear and High Energy PhysicsParticle physicsMuonViolació CP (Física nuclear)Physics beyond the Standard ModelScalar (mathematics)Effective field theoryScale (descriptive set theory)Order of magnitudePartícules (Física nuclear)Leptondescription
Using an effective lagrangian description we analyze possible new physics contributions to the most relevant muon number violating processes: $\mu \to e \gamma$ and $\mu$--$e$ conversion in nuclei. We identify a general class of models in which those processes are generated at one loop level and in which $\mu$--$e$ conversion is enhanced with respect to $\mu \to e \gamma$ by a large $\ln(m^2_\mu/\Lambda^2),$ where $\Lambda$ is the scale responsible for the new physics. For this wide class of models bounds on $\mu$--$e$ conversion constrain the scale of new physics more stringently than $\mu \to e \gamma$ already at present and, with the expected improvements in $\mu$--$e$ conversion experiments, will push it upwards by about one order of magnitude more. To illustrate this general result we give an explicit model containing a doubly charged scalar and derive new bounds on its couplings to the leptons.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1998-03-01 |