Multimode entanglement for fermions
Abstract
We are motivated by tripartite entanglement for fermions. While GHZ or W states involve 3-fold intrication, we consider here piecewise intrication of 3 fermions in C2, namely of type ab+bc+ca. Before interaction with Stern-Gerlach apparatus, qu-bits are distinguishable; at the output however they turn into un-distinguishable particles, whose anti-symmetric wave function is of the form (b-a,c-a) (affine determinant). More generally, d+1 intricated fermions in Cd can be represented by the anti-symmetric wave function (a1-a0,a2-a0,·s,ad-a0). We investigate also properties of affine Slater determinants, as expectation values or reduced density matrices.
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