Probe Anomalous tqγ couplings through Single Top Photoproduction at the LHC

Abstract

In this work we study the constraints on the anomalous tqγ (q=u, c) couplings by photon-produced leading single top production and single top jet associated production through the main reaction pp→ pγ p→ pt→ pW(→ ) b+X and pp→ pγ p→ ptj→ pW(→ ) bj+X assuming a typical LHC multipurpose forward detectors in a model independent effective lagrangian approach. Our results show that: for the typical detector acceptance 0.0015<1<0.5, 0.1<2<0.5 and 0.0015<3<0.15 with a luminosity of 2 fb-1, the lower bounds of tqγ through leading single top channel (single top jet channel) are 0.0096 (0.0115), 0.0162 (0.0152) and 0.0098 (0.0122), respectively, correspond to Br(t→ qγ) 3× 10-5. With a luminosity of 200 fb-1, the lower bounds of tqγ are 0.0031 (0.0034), 0.0051 (0.0047) and 0.0031(0.0038), respectively, correspond to Br(t→ qγ) 4× 10-6. We conclude that both channels can be used to detect such anomalous tqγ couplings and the detection sensitivity on tqγ can be improved.