Abstract

The direct products of the physically significant, irreducible, unitary representations of the proper, orthochronous inhomogeneous Lorentz group are reduced. It is shown that Γm1s1⊗Γm2s2 contains only irreducible components of the form ΓmJ, and that ΓmJ occurs with nonzero multiplicity only if J − (s1+s2) is an integer. For such J's the multiplicity of Γm, J for J≥s1+s2 is (2s1+1) (2s2+1) for each positive m. Γm1s1⊗Γs2(±) contains only irreducible components of the form ΓmJ, where J − (s1+s2) is an integer. The multiplicity of such Γm, J for J≥s1+s2 is (2s1+1) for each positive m. Γs1(ε1)⊗Γs2(ε2) contains irreducible components of the form Γs(∈) and ΓmJ, where s = | ∈1s1+∈2s1 |, ∈ = sign (∈1s1+∈2s2) and J − (s1+s2) is an integer. The multiplicity of Γm, J is one for J≥(s1+s2) and for each positive m. The multiplicity of Γs(∈) is infinite. The symmetrized squares are also analyzed. Numerous examples are given.

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