Floquet engineering engineers time-hierarchical emergent local symmetries that restrict inter-sector couplings and create long-lived gauge sectors in U(1) lattice gauge theory simulations.
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Quantum neuromorphic kernels outperform parameterized quantum kernels on low-dimensional datasets like Iris but underperform on high-dimensional SDSS data in spectral clustering tasks.
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Protecting Quantum Simulations of Lattice Gauge Theories through Engineered Emergent Hierarchical Symmetries
Floquet engineering engineers time-hierarchical emergent local symmetries that restrict inter-sector couplings and create long-lived gauge sectors in U(1) lattice gauge theory simulations.
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Quantum Spectral Clustering: Comparing Parameterized and Neuromorphic Quantum Kernels
Quantum neuromorphic kernels outperform parameterized quantum kernels on low-dimensional datasets like Iris but underperform on high-dimensional SDSS data in spectral clustering tasks.