Christopher D. Carone, Hitoshi Murayama
Published 1994-11-09, updated 1994-11-12Version 2
We discuss the phenomenology of a light U(1) gauge boson, $\gamma_B$, that couples only to baryon number. We assume that the new U(1) gauge symmetry is spontaneously broken and that the $\gamma_B$ mass is smaller than $m_Z$. Nevertheless, we show that the model survives the current experimental constraints. In addition, we argue that evidence for the existence of such a particle could be hidden in existing LEP and Tevatron data. We determine the allowed regions of the $m_B$-$\alpha_B$ plane, where $m_B$ is the $\gamma_B$ mass, and where $4 \pi \alpha_B$ is the squared gauge coupling. We point out that in some parts of the allowed parameter space our model can account for rapidity gap events in proton-antiproton scattering seen at the Fermilab Tevatron.
Comments: 11 pages, LaTeX, 4 figures in a uuencoded compressed postscript file. We add a comment on the possible kinetic mixing between the U(1)_Y and U(1)_B gauge bosons, and include an important reference to the work of Nelson and Tetradis
Journal: Phys.Rev.Lett.74:3122-3125,1995
Hunting a Light U(1)_B Gauge Boson Coupled to Baryon Number in Collider Experiments
Light U(1) Gauge Boson Coupled to Baryon Number
B and not L in supersymmetry: new U(1) gauge symmetry and dark matter
