PERTURBATION THEORY FOR AN INFINITE MEDIUM OF FERMIONS
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The ground-state energy and low-energy excitations of single-particle character of an infinite medium of fermions are discussed with the aid of time- dependent Green's functions, which are convenient generalizations of the exact particle correlation functions in the ground state of N particles. The power series development for the one- and two-particle functions, under the restriction to two-body forces, is derived and described by means of Feynman diagrams. The derivation of the linked-cluster expansion for the energy then follows immediately. The equivalence to previous versions is established. The one- particle function is examined in particular detail, and it is shown that the poles of its space-time Fourier transform studied as a function of the energy variable, for fixed momentum, determined the (N + 1)-particle and (N - 1)- particle excited states which have single-particle character. For a reasonable assumption about the full spectrum of excited states, it is found that for the interacting system, single-particle excitations with a real energy occur only at the Fermi momentam. It is pointed out that the corresponding energy, termed the perturbed Fermi energy, equals the binding energy per particle in the ground state of N particles for a satarating system at equilibrium density. It ismore » shown, finally, that the entire structare of the theory may be carried over to the case of finite temperatare, requiring only a redefinition of the Green's functions. The analogy is constructed from a discussion of the internal energy. (auth)« less