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arxiv: 2003.02889 · v2 · pith:5HA6Z3I5new · submitted 2020-03-05 · ❄️ cond-mat.str-el · math-ph· math.MP

Lowest energy states of an O(N) fermionic chain

classification ❄️ cond-mat.str-el math-phmath.MP
keywords chainsantisymmetricchainfermionsflavorsinvariantnumberparticle-hole
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A quite general finite-size chain of fermions with $N$ internal degrees of freedom (flavors) and $O(N)$ symmetry is considered. In the case of the free boundary condition, we prove that the ground state in the invariant sector having exactly $m$ flavors with an odd particle number is represented by a single rank-$m$ antisymmetric multiplet. For the even-length chains, its particle-hole quantum number (if it's a good one) is given by the parity of the $m$. For the odd-length chains, the particle-hole symmetry leads to the twofold degeneracy among the conjugate multiplets. Similar statements are proven for the $O(N)$ mixed-spin chains in antisymmetric representations. The results are extended to the long-range interacting fermions and (partially) to the translation invariant chains.

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