Triangle singularity in the J/ γ p decay

Abstract

In this work, we study the role of triangle singularity in the J/ γ p decay. We find that through a triangle mechanism, involving a triangle loop composed by ω, π and p, this decay may develop a triangle singularity and produce a visible peak in the invariant mass Mγ around 1.73 GeV with a width of 0.02 GeV. Such a triangle mechanism may also cause significant spin effects on the final , which can be detected by measuring its spin density matrix elements. Our calculations show that the branching ratios due to the triangle mechanism is Br(J/ γ p, π p)=1.058× 10-6. Hopefully, this reaction can be investigated at BESIII and future experiments, e.g. Super Tau-Charm Facility, and the narrow width of the induced structure, the moving TS position and the distinct features of the spin density matrix elements of the may serve as signals for the triangle singularity mechanism.