Honeycomb Ising antiferromagnet in finite magnetic field exhibits extensive degeneracy mapping to polyhex tilings, realized as a jammed spin liquid that quantum fluctuations partially lift to non-periodic 12-hex subspaces.
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2026 3verdicts
UNVERDICTED 3representative citing papers
A scheme is developed to engineer strong three-body interactions in Rydberg atom lattices, allowing the effective Hamiltonian and emergent quantum phases to be modified compared to two-body-only systems.
Geometric frustration in a square-lattice Ising model with diagonal couplings produces strongly inhomogeneous correlations that standard Hamiltonian-inspired variational ansatze cannot capture efficiently, increasing required circuit depth until bond-resolved parameters are introduced.
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Field-induced jammed polyhex spin liquid in the honeycomb Ising antiferromagnet
Honeycomb Ising antiferromagnet in finite magnetic field exhibits extensive degeneracy mapping to polyhex tilings, realized as a jammed spin liquid that quantum fluctuations partially lift to non-periodic 12-hex subspaces.
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Three-body interactions in Rydberg lattices
A scheme is developed to engineer strong three-body interactions in Rydberg atom lattices, allowing the effective Hamiltonian and emergent quantum phases to be modified compared to two-body-only systems.
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Frustration-Induced Expressibility Limitations in Variational Quantum Algorithms
Geometric frustration in a square-lattice Ising model with diagonal couplings produces strongly inhomogeneous correlations that standard Hamiltonian-inspired variational ansatze cannot capture efficiently, increasing required circuit depth until bond-resolved parameters are introduced.