Prospects of discovering stable double-heavy tetraquarks at a Tera-$Z$ factory (1805.02535v2)

Abstract: Motivated by a number of theoretical considerations, predicting the deeply bound double-heavy tetraquarks $T^{{bb}}_{[\bar u \bar d]}$, $T^{{bb}}_{[\bar u \bar s]}$ and $T^{{bb}}_{[\bar d \bar s]}$, we explore the potential of their discovery at Tera-$Z$ factories. Using the process $Z \to b \bar b b \bar b$, we calculate, employing the Monte Carlo generators MadGraph5$_$aMC@NLO and Pythia6, the phase space configuration in which the~$b b$ pair is likely to fragment as a diquark. In a jet-cone, defined by an invariant mass interval $m_{bb} < M_{T^{{bb}}_{[\bar q \bar q']}} + \Delta M$, the sought-after tetraquarks $T^{{bb}}_{[\bar q \bar q^\prime]}$ as well as the double-bottom baryons,~$\Xi_{bb}^{0,-}$, and $\Omega_{bb}^-$, can be produced. Using the heavy quark--diquark symmetry, we estimate $\mathcal{B} (Z \to T^{{bb}}_{[\bar u \bar d]} + \; \bar b \bar b) = (1.4^{+1.1}_{-0.5}) \times 10^{-6}$, and about a half of this for the $T^{{bb}}_{[\bar{u}\bar{s}]}$ and $T^{{bb}}_{[\bar d \bar s]}$. We also present an estimate of their lifetimes using the heavy quark expansion, yielding $\tau(T^{{bb}}_{[\bar q \bar q^\prime]}) \simeq 800$~fs. Measuring the tetraquark masses would require decays, such as $T^{{bb} -}{[\bar u \bar d]} \to B^- D^- \pi^+$, $T^{{bb} -}{[\bar u \bar d]} \to J/\psi \overline K^0 B^-$, $T^{{bb} -}{[\bar u \bar d]} \to J/\psi K^- \overline B^0$, $T^{{bb} -}{[\bar u \bar s]} \to \Xi_{bc}^0 \Sigma^-$, and $T^{{bb} 0}{[\bar d \bar s]} \to \Xi{bc}^0 \bar\Sigma^0$, with subsequent decay chains in exclusive non-leptonic final states. We estimate a couple of the decay widths and find that the product branching ratios do not exceed~$10^{-5}$. Hence, a good fraction of these modes will be required for a discovery of $T^{{bb}}_{[\bar q \bar q']}$ at a Tera-$Z$ factory.