Improved QCD sum rule study of Zc(3900) as a DD* molecular state

Abstract

In the framework of QCD sum rules, we present an improved study of our previous work [Phys. Rev. D 80, 056004 (2009)] particularly on the DD* molecular state to investigate that the possibility of the newly observed Zc(3900) as a S-wave DD* molecular state. To ensure the quality of QCD sum rule analysis, contributions of up to dimension nine are calculated to test the convergence of operator product expansion (OPE). We find that the two-quark condensate <qq> is very large and makes the standard OPE convergence (i.e. the perturbative at least larger than each condensate contribution) happen at very large values of Borel parameters. By releasing the rigid OPE convergence criterion, one could find that the OPE convergence is still under control. We arrive at the numerical result 3.860.27 GeV for DD*, which agrees with the mass of Zc(3900) and could support the explanation of Zc(3900) in terms of a S-wave DD* molecular state.