Fock representations of multicomponent (particularly non-Abelian anyon) commutation relations

Abstract

Let H be a separable Hilbert space and T be a self-adjoint bounded linear operator on H 2 with norm 1, satisfying the Yang--Baxter equation. Bo\.zejko and Speicher (1994) proved that the operator T determines a T-deformed Fock space F(H)=n=0∞ Fn(H). We start with reviewing and extending the known results about the structure of the n-particle spaces Fn(H) and the commutation relations satisfied by the corresponding creation and annihilation operators acting on F(H). We then choose H=L2(X V), the L2-space of V-valued functions on X. Here X:= Rd and V:= Cm with m2. Furthermore, we assume that the operator T acting on H 2=L2(X2 V 2) is given by (Tf(2))(x,y)=Cx,yf(2)(y,x). Here, for a.a.\ (x,y)∈ X2, Cx,y is a linear operator on V 2 with norm 1 that satisfies Cx,y*=Cy,x and the spectral quantum Yang--Baxter equation. The corresponding creation and annihilation operators describe a multicomponent quantum system. A special choice of the operator-valued function Cxy in the case d=2 determines non-Abelian anyons (also called plektons). For a multicomponent system, we describe its T-deformed Fock space and the available commutation relations satisfied by the corresponding creation and annihilation operators. Finally, we consider several examples of multicomponent quantum systems.