Multi-channel joint analysis of the exotic charmonium-like state Tcc(4020)
Abstract
This paper reports the first multi-channel joint analysis to identify the properties of the exotic charmonium-like state Tcc(4020) via the electron-positron annihilation process e+e-π+Tcc(4020)-+c.c. A partial wave analysis is performed simultaneously in three decay channels Tcc(4020)- D*0D*-, π-J/, and π-hc, based on data samples taken at s=4.395 and 4.416\,GeV with an integrated luminosity of 1598.9\,pb-1 collected with the BESIII detector operating on the BEPCII collider. For the first time, the spin-parity of the Tcc(4020)- is determined to be JP=1+ with a significance 11.7σ. Pole positions are extracted on the Riemann sheets with three branch points in the complex energy plane. Furthermore, the relative branching fractions are obtained as B[Tcc(4020)-π-J/]/B[Tcc(4020)-D*0D*-]=(3.60.61.6)×10-3 and B[Tcc(4020)-π-hc]/B[Tcc(4020)-D*0D*-]=(8.91.32.3)×10-2, where the first uncertainties are statistical, and the second are systematic.
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