Medium modifications of 1P-wave charmonia cJ(1P) in cold nuclear matter

Abstract

In this work, we employ the quark-meson coupling model to investigate the mass shifts of 1P-wave charmonia cJ(1P) (J=0,1,2) in cold symmetric nuclear matter by incorporating in-medium loop contributions to the cJ(1P) self-energy within the unquenched picture. At normal nuclear matter density, we obtain significant mass reductions of about 60 MeV for the cJ(1P) states, with the c2(1P) mass shift primarily arising from the vector-vector loop. Our results also indicate the absence of level crossing between the in-medium cJ(1P) mass and the DD mass threshold up to B < 30-a feature that could be probed in the Compressed Baryonic Matter experiment at FAIR and the Beam Energy Scan program at RHIC.

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