Quantum electrodynamics (QED) with self-conjugated equations with spinor wave functions for fermion fields is considered. In the low order of the perturbation theory, matrix elements of some of QED physical processes are calculated. The final results coincide with cross-sections calculated in the standard QED. The self-energy of an electron and amplitudes of processes associated with determination of the anomalous magnetic moment of an electron and Lamb shift are calculated. These results agree with the results in the standard QED. Distinctive feature of the developed theory is the fact that only states with positive energies are present in the intermediate virtual states in the calculations of the electron self-energy, anomalous magnetic moment of an electron and Lamb shift. Besides, in equations, masses of particles and antiparticles have the opposite signs.

中文翻译：

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具有旋量波函数的费米子场自共轭方程的量子电动力学

考虑了具有自共轭方程的量子电动力学 (QED)，该方程具有费米子场的旋量波函数。在微扰理论的低阶中，计算了一些 QED 物理过程的矩阵元素。最终结果与标准 QED 中计算的横截面一致。计算电子的自能和与确定电子的异常磁矩和兰姆位移相关的过程的幅度。这些结果与标准 QED 中的结果一致。发展理论的显着特点是，在计算电子自能、电子反常磁矩和兰姆位移的中间虚态中，只有具有正能量的状态存在。此外，在方程中，