Note on new interesting baryon channels to measure the photon polarization in b -> s gamma
arXiv:1007.3632 · doi:10.1103/PhysRevD.82.117502
Abstract
At LHC a large number of b-flavored baryons will be produced. In this note we propose new baryon modes to determine the photon helicity of the penguin transition $b \to s γ$. The decay $Î_b \to Îγ$ has the drawback that the $Î$, being neutral and long-lived, will escape detection most of the time. To overcome this difficulty, transitions of the type $Î_b \to Î^{*} γ$ have been proposed, where $Î^{*}$ denotes an excited state decaying strongly within the detector into the clean mode $p K^-$. The doublet $Î_b$, that decays weakly, has a number of good features. The charged baryon $Î_b^-$ will decay into the mode $Î^- γ$, where the ground state hyperon $Î^-$, although it will decay most of the time outside the detector, can be detected because it is charged. We consider also the decay of $Î_b$ into $Î^{*} γ$, where a higher mass state $Î^{*}$ can decay strongly within the detector. We point out that the initial transverse polarization of $Î_b$ has to be known in all cases. To determine this parameter through the transition $Î_b \to J/Ψ Î$, we distinguish between different cases, and underline that in some situations one needs {\it theoretical input} on the asymmetry parameter $α_{Î_b}$ of the primary decay. {\it A fortiori} the same considerations apply to the case of the $Î_b$.