Coleman–Mandula theorem
No-go theorem pertaining the triviality of space-time and internal symmetries / From Wikipedia, the free encyclopedia
In theoretical physics, the Coleman–Mandula theorem is a no-go theorem stating that spacetime and internal symmetries can only combine in a trivial way. This means that the charges associated with internal symmetries must always transform as Lorentz scalars. Some notable exceptions to the no-go theorem are conformal symmetry and supersymmetry. It is named after Sidney Coleman and Jeffrey Mandula who proved it in 1967 as the culmination of a series of increasingly generalized no-go theorems investigating how internal symmetries can be combined with spacetime symmetries.[1] The supersymmetric generalization is known as the Haag–Łopuszański–Sohnius theorem.