P-wave excited Bc** meson photoproduction at the LHeC

Abstract

As an important sequential work of the S-wave Bc(*) (1S0(3S1)) meson production at the large hadron electron collider (LHeC), we investigate the production of the P-wave excited Bc** states (1P1 and 3PJ with J=0,1,2) via photoproduction mechanism within the framework of nonrelativistic QCD at the LHeC. Generally, the e-+P γ+ g → Bc** +b+ c process is considered as the main production mechanism at an electron-proton collider due to the large luminosity of the gluon. However, according to our experience on the S-wave Bc(*) meson production at the LHeC, the extrinsic production mechanism, i.e., e-+P γ+c → Bc** +b and e-+P γ+b → Bc**+c, could also provide dominating contributions at low pT region. A careful treatment between these channels is performed and the results on total and differential cross sections, together with main uncertainties are discussed. Taking the quark masses mb=4.900.40 GeV and mc=1.500.20 GeV into account and summing up all the production channels, we expect to accumulate (2.48+3.55-1.75) × 104 Bc**(1P1), (1.14+1.49-0.82) × 104 Bc**(3P0), (2.38+3.39-1.74) × 104 Bc**(3P1) and (5.59+7.84-3.93) × 104 Bc**(3P2) events at the S=1.30~TeV LHeC in one operation year with luminosity L= 1033 cm-2s-1. With such sizable events, it is worth studying the properties of excited P-wave Bc** states at the LHeC.