A VMBQC model restricted to one extra trainable parameter generates distributions that the corresponding unitary model cannot learn.
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Experimental demonstration of higher-order photon correlations controlled by the number of quantum emitters in a waveguide QED system, scaling to three emitters.
Variational autoencoders combined with symbolic regression extract physically meaningful representations and order parameters from raw quantum measurement data, revealing new phenomena such as corner-ordering in Rydberg arrays.
Causal reference frame and time-delocalized subsystem descriptions of pure processes are coordinate parametrizations of a single neutral object, with unitary perspective transformations possible by reshuffling time order or adding reference-frame subsystems.
Quotienting distinguishable-particle states under ordered-basis, unitary-invariance, and local-counting assumptions produces creation-annihilation algebras that reproduce transtatistics partition functions.
Global phase modulation of a Rydberg laser combined with optimal control enables high-fidelity multi-qubit parity gates in neutral atoms across equidistant and inhomogeneous configurations.
citing papers explorer
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Minimizing classical resources in variational measurement-based quantum computation for generative modeling
A VMBQC model restricted to one extra trainable parameter generates distributions that the corresponding unitary model cannot learn.
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Realization of waveguide many-body quantum optics
Experimental demonstration of higher-order photon correlations controlled by the number of quantum emitters in a waveguide QED system, scaling to three emitters.
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Discovering quantum phenomena with Interpretable Machine Learning
Variational autoencoders combined with symbolic regression extract physically meaningful representations and order parameters from raw quantum measurement data, revealing new phenomena such as corner-ordering in Rydberg arrays.
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Frame perspectives for process matrices: from coordinate parametrization to spacetime representation
Causal reference frame and time-delocalized subsystem descriptions of pure processes are coordinate parametrizations of a single neutral object, with unitary perspective transformations possible by reshuffling time order or adding reference-frame subsystems.
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Reconstruction of Quantum Fields: CCR, CAR and Transfields
Quotienting distinguishable-particle states under ordered-basis, unitary-invariance, and local-counting assumptions produces creation-annihilation algebras that reproduce transtatistics partition functions.
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Multi-Qubit Parity Gates for Rydberg Atoms in Various Configurations
Global phase modulation of a Rydberg laser combined with optimal control enables high-fidelity multi-qubit parity gates in neutral atoms across equidistant and inhomogeneous configurations.