Machine learning reconstruction accuracy is substantially higher for spectral-edge eigenstates than for mid-spectrum eigenstates, providing a new quantitative measure of information content in many-body quantum states.
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An optical superlattice architecture is proposed to implement the three-band Emery model with ultracold fermions, allowing simulation of cuprate-like band structure, interactions, and thermodynamics.
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Information in Many-body Eigenstates: A Question of Learnability
Machine learning reconstruction accuracy is substantially higher for spectral-edge eigenstates than for mid-spectrum eigenstates, providing a new quantitative measure of information content in many-body quantum states.
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Realizing multi-orbital Emery models with ultracold atoms
An optical superlattice architecture is proposed to implement the three-band Emery model with ultracold fermions, allowing simulation of cuprate-like band structure, interactions, and thermodynamics.