提出了一种超腔的新技术方案,利用康普顿散射理论计算了基于超腔技术的激光同步辐射(LSS)波长以及单个电子的光子产额和辐射功率,讨论了电子束品质和激光功率损耗对激光同步辐射的总光子产额和总辐射功率的影响。结果发现,利用3.5 GeV电子束和远红外激光进行康普顿垂直散射可以获得能量10.97,5 MeV的γ射线,单个电子产生的光子产额与激光功率和入射波长成正比,与光束的截面积成反比。单个电子的辐射功率与激光功率和Lorentz因子的平方成正比,与光束的截面积成反比。 A new scheme of super cavity was proposed. The wavelength of laser synchrotron radiation (LSS) and the photon yield and radiation power of single electron were calculated by Compton scattering theory. The effects of electron beam quality and laser power Effect of Loss on Total Photon Yield and Total Radiant Power of Laser Synchrotron Radiation. The results show that using 3.5 GeV electron beam and far infrared laser for Compton vertical scattering, the energy of 10.97,5 MeV γ-rays can be obtained. The photon yield of a single electron is proportional to the laser power and incident wavelength, and the cross-sectional area of ​​the beam Inversely. The radiant power of a single electron is proportional to the square of the laser power and the Lorentz factor, and inversely proportional to the cross-sectional area of ​​the beam.