We show that a quantum spin circulator, a nonreciprocal device that routes spin currents without any charge transport, can be achieved in Y junctions of identical spin-1/2 Heisenberg chains coupled by a chiral three-spin interaction. Using bosonization, boundary conformal field theory, and density matrix renormalization group simulations, we find that a chiral fixed point with maximally asymmetric spin conductance arises at a critical point separating a regime of disconnected chains from a spin-only version of the three-channel Kondo effect. We argue that networks of spin-chain Y junctions provide a controllable approach to construct long-sought chiral spin-liquid phases.
Quantum spin circulator in Y junctions of Heisenberg chains / Buccheri, Francesco; Egger, Reinhold; Pereira, Rodrigo G.; Ramos, Fl'avia B.. - In: PHYSICAL REVIEW. B. - ISSN 2469-9950. - 97:22(2018). [10.1103/PhysRevB.97.220402]
Quantum spin circulator in Y junctions of Heisenberg chains
Buccheri, Francesco;
2018
Abstract
We show that a quantum spin circulator, a nonreciprocal device that routes spin currents without any charge transport, can be achieved in Y junctions of identical spin-1/2 Heisenberg chains coupled by a chiral three-spin interaction. Using bosonization, boundary conformal field theory, and density matrix renormalization group simulations, we find that a chiral fixed point with maximally asymmetric spin conductance arises at a critical point separating a regime of disconnected chains from a spin-only version of the three-channel Kondo effect. We argue that networks of spin-chain Y junctions provide a controllable approach to construct long-sought chiral spin-liquid phases.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2981592