Study on the weak decay between two heavy baryons Bi(12+) Bf(32+) in the light-front quark model

Abstract

In this work, we study the weak decay between two heavy baryons Bi(12+) Bf(32+) in the light-front quark model where three-quark picture is employed for baryon. We derive general form of transition amplitude of Bi(12+) Bf(32+), and analyze two specific cases of transitions: the weak decays of single heavy baryon b c* and the decays of double-charmed baryon cc c*(c*). We compute the hadronic form factors for the transitions and apply them to study the decay widths of the semi-leptonic Bi(12+) Bf(32+) ll and non-leptonic Bi(12+) Bf(32+)M. Previously we studied the transition b c* with the quark-diquark picture of baryon in the light-front quark model. Here we revisit this transition with three-quark picture of baryon. At the quark level, the transition b c* is induced by the b→ c transition.The subsystem of the two unchanged light quarks which possesses definite and same spin in initial and final state can be viewed as a spectator, so the spectator approximation can be applied directly. For the weak decay of doubly charmed baryon cc, a c quark decays to a light quark q1, so both the initial state cc and final state q1q2 (q1 and the original q2 in initial state may be the same flavor quarks) which possess definite spin are no longer spectators. A rearrangement of quarks for initial and final states is adopted to isolate the unchanged subsystem cq2 which can be viewed as the spectator approximately. Future measurements on these channels will constrain the nonperturbative parameter in the wavefunctions and test the model predictions.