Quantum extended supersymmetries

Abstract: We analyse some quantum multiplets associated with extended supersymmetries. We study in detail the general form of the causal (anti)commutation relations. The condition of positivity of the scalar product imposes severe restrictions on the (quantum) model. It is problematic if one can find out quantum extensions of the standard model with extended supersymmetries.

“…and ζ = θ 1 − θ 2 together with their conjugates as well as (by translation invariance) the difference variable x = x 1 − x 2 (a somewhat similar argument but in a different context also appears in [6]). Note that by introducing the difference variable x = x 1 − x 2 the derivative ∂ l in Q 2 , Q2 taken with respect to the second variable changes sign such that in the new variables equations (2.4),(2.5) take the form…”

Supersymmetric Källen-Lehmann representation

“…and ζ = θ 1 − θ 2 together with their conjugates as well as (by translation invariance) the difference variable x = x 1 − x 2 (a somewhat similar argument but in a different context also appears in [6]). Note that by introducing the difference variable x = x 1 − x 2 the derivative ∂ l in Q 2 , Q2 taken with respect to the second variable changes sign such that in the new variables equations (2.4),(2.5) take the form…”

Supersymmetric Källen-Lehmann representation

“…There is another possibility, namely to use extended supersymmetries [11]. However in this case one finds out immediately that one cannot include the usual ghost fields in some supersymmetric ghost multiplet.…”

A supersymmetric extension of quantum gauge theory

No-go result for supersymmetric gauge theories in the causal approach