Light-Front Approach for Heavy Pentaquark Transitions

Abstract

Assuming the two diquark structure for the pentaquark state as advocated in the Jaffe-Wilczek model, there exist exotic parity-even anti-sextet and parity-odd triplet heavy pentaquark baryons. The theoretical estimate of charmed and bottom pentaquark masses is quite controversial and it is not clear whether the ground-state heavy pentaquark lies above or below the strong-decay threshold. We study the weak transitions of heavy pentaquark states using the light-front quark model. In the heavy quark limit, heavy-to-heavy pentaquark transition form factors can be expressed in terms of three Isgur-Wise functions: two of them are found to be normalized to unity at zero recoil, while the third one is equal to 1/2 at the maximum momentum transfer, in accordance with the prediction of the large-Nc approach or the quark model. Therefore, the light-front model calculations are consistent with the requirement of heavy quark symmetry. Numerical results for form factors and Isgur-Wise functions are presented. Decay rates of the weak decays Thetab+ to Thetac0 pi+ (rho+), Thetac0 to Theta+ pi- (rho-), Sigma'5b+ to Sigma'5c0 pi+ (rho+) and Sigma'5c0 to N8+ pi- (rho-) with ThetaQ, Sigma'5Q and N8 being the heavy anti-sextet, heavy triplet and light octet pentaquarks, respectively, are obtained. For weakly decaying Thetab+ and Thetac0, the branching ratios of Thetab+ to Thetac0 pi+, Thetac0 to Theta+ pi- are estimated to be at the level of 10-3 and a few percents, respectively.

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