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Superconducting Qubits
Long-range Ising spins models emerging from frustrated Josephson junctions arrays with topological constraints
arXiv
Authors: Oliver Neyenhuys, Mikhail V. Fistul, Ilya M. Eremin
Year
2023
Paper ID
55826
Status
Preprint
Abstract Read
~2 min
Abstract Words
191
Citations
N/A
Abstract
Geometrical frustration in correlated systems can give rise to a plethora of novel ordered states and intriguing phases. Here, we analyze theoretically vertex-sharing frustrated Kagome lattice of Josephson junctions and identify various classical and quantum phases. The frustration is provided by periodically arranged 0- and π- Josephson junctions. In the frustrated regime the macroscopic phases are composed of different patterns of vortex/antivortex penetrating each basic element of the Kagome lattice, i.e., a superconducting triangle interrupted by three Josephson junctions. We obtain that numerous topological constraints, related to the flux quantization in any hexagon loop, lead to highly anisotropic and long-range interaction between well separated vortices (antivortices). Taking into account this interaction and a possibility of macroscopic "tunneling" between vortex and antivortex in single superconducting triangles we derive an effective Ising-type spin Hamiltonian with strongly anisotropic long-range interaction. In the classically frustrated regime we calculate numerically the temperature-dependent spatially averaged spins polarization, overline{m}(T), characterizing the crossover between the ordered and disordered vortex/antivortex states. In the coherent quantum regime we analyze the lifting of the degeneracy of the ground state and the appearance of the highly entangled states.
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- This paper contributes to the Superconducting Qubits research area in the Quantum Articles archive.
- It adds a 2023 reference point for readers tracking recent quantum research.
- Geometrical frustration in correlated systems can give rise to a plethora of novel ordered states and intriguing phases.
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