Nonlinear cellular automata rules produce frustrated spin models whose quantum versions exhibit order-by-disorder and first-order phase transitions to paramagnets.
Sachdev, Quantum Phase Transitions , 2nd ed
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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.
Hardware-efficient protocol for measuring complex Loschmidt echoes in a Fermi-Hubbard optical-lattice processor via quench dynamics and tailored imaginary-time pulses.
citing papers explorer
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Spin models from nonlinear cellular automata
Nonlinear cellular automata rules produce frustrated spin models whose quantum versions exhibit order-by-disorder and first-order phase transitions to paramagnets.
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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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Phase-Sensitive Measurements on a Fermi-Hubbard Quantum Processor
Hardware-efficient protocol for measuring complex Loschmidt echoes in a Fermi-Hubbard optical-lattice processor via quench dynamics and tailored imaginary-time pulses.