The present study experimentally investigated the effects of plasma discharges on the stabilization of lifted non-premixed jet flames in a stream of co-flow air. Three different fuels, methane, propane and ethylene, were used. The plasma discharge was produced on the sharp edge of the fuel nozzle exit, facilitating its impact on flame stabilization. It was observed that the application of plasma discharges has an impact on the lift-off velocity, the flame lift-off height and flame hysteresis. The presence of plasma extended the lift-off velocity with an enhancement of approximately 84% when the co-flow velocity was sufficiently low. The flame lift-off height was seen to decrease with the presence of plasma discharge; however, the impact of plasma discharge on lift-off height was gradually diminished as the lift-off height became large. In flame hysteresis studies, both of the flame lift-off and reattachment velocities were increased with the presence of plasma discharge, regardless of the fuel. Results showed that the enhancement on lift-off and reattachment velocities was double with the presence of plasma. Spectroscopic study showed that the emission characteristics, above 400 nm, in downstream of flames were intensified with the presence of plasma discharge, consistent with the flame luminosity visualization. The emission bandwidth broadened when both the plasma and the flame were present. Images obtained from an intensified charge-coupled device (ICCD) camera confirmed the presence of plasma facilitating the flame to anchor at the nozzle exit. The present study investigates the effect of a non-thermal plasma discharge on the stabilization of a lifted non-premixed jet flame.