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Two elementary proofs of the Wigner theorem on symmetry in quantum mechanics

arXiv:0808.0779 · doi:10.1016/j.physleta.2008.09.052

Abstract

In quantum theory, symmetry has to be defined necessarily in terms of the family of unit rays, the state space. The theorem of Wigner asserts that a symmetry so defined at the level of rays can always be lifted into a linear unitary or an antilinear antiunitary operator acting on the underlying Hilbert space. We present a proof of this theorem which is both elementary and economical. Central to our proof is the recognition that a given Wigner symmetry can, by post-multiplication by a unitary symmetry, be taken into either the identity or complex conjugation. Our analysis involves a judicious interplay between the effect a given Wigner symmetry has on certain two-dimensional subspaces and the effect it has on the entire Hilbert space.

A second proof of Wigner's theorem added and, consequently, the title slightly changed. 8 pages, Latex, no figures