In this paper we give a generalized form of the Schrodinger equation in the relativistic case, which contains a generalization of the Klein-Gordon equation. By complex Legendre transformation, the complex Lagrangian of electrodynamics produces a complex relativistic Hamiltonian H of electrodynamics, on the holomorphic cotangent bundle T* M. By a special quantization process, a relativistic time dependent Schrodinger equation, in the adapted frames of (T* M, H) is obtained. This generalized Schrodinger equation can be expressed with respect to the Laplace operator of the complex Hamilton space (T*M, H). Finally, under some additional conditions on the proper time s of the complex space-time M and the time parameter t along the quantum state, by the method of separation of variables, we obtain two classes of solutions for the Schrodinger equation, one for the weakly gravitational complex curved space M, and the second in the complex space-time with Schwarzschild metric.

• 出版日期2015