The theory for the two-stream free electron laser(FEL)consisting of a relativistic electron beam transporting along the axis of a helical wiggler in the presence of an axial guiding magnetic field is proposed and investigated.In the analysis,the effects of self-fields are taken into account.The electron trajectories and the small signal gain are derived.The characteristics of the linear-gain and the normalized maximum gain are studied numerically.The results show that there are seven stable groups of orbits in the presence of self-fields instead of two groups reported in the absence of the self-fields.It is also shown that the normalized gains of three groups decrease while the rest increase with the increasing of normalized cyclotron frequency 0.Furthermore,it is found that the two-stream instability and the self-field lead to a decrease in the maximum gain except for group 3.The results show that the normalized maximum gain is enhanced in comparison with that of the single stream. The theory for the two-stream free electron laser (FEL) consisting of a relativistic electron beam transporting along the axis of a helical wiggler in the presence of an axial guiding magnetic field is proposed and investigated. In the analysis, the effects of self- fields are taken into account. The electron trajectories and the small signal gain are derived. characteristics of the linear-gain and the normalized maximum gain are studied numerically. The results show that there are seven stable groups of orbits in the presence of self- fields instead of two groups reported in the absence of the self- fields.It is also shown that the normalized gains of three groups decrease while the rest increase with the increasing of normalized cyclotron frequency 0.Furthermore, it is found that the two-stream instability and the self-field lead to a decrease in the maximum gain except for group 3. The results show that the normalized maximum gain is enhanced in comparison with that of the single stream.