▎ 摘　　要

We demonstrate experimentally that composite fermions in monolayer graphene display weak antilocalization. Our experiments deal with fractional quantum Hall (FQH) states in high-mobility, suspended graphene Corbino disks in the vicinity of nu = 1/2. We find a strong temperature dependence of conductivity sigma away from half filling, which is consistent with the expected electron-electron interaction-induced gaps in the FQH state. At half filling, however, the temperature dependence of conductivity sigma(T) becomes quite weak, as anticipated for a Fermi sea of composite fermions, and we find a logarithmic dependence of sigma on T. The sign of this quantum correction coincides with the weak antilocalization of graphene composite fermions, indigenous to chiral Dirac particles.