Canonical mapping of quantum-dot-superconductor clusters enables neural quantum-state calculations that reveal trivial singlet, Heisenberg-like, and critical regimes with 1D gaplessness and 2D triplet states.
Studying Quantum Materials with Scanning SQUID Microscopy,
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A new class of superconducting tunable resonators enables fast, low-loss magnetometry at milli-kelvin temperatures with MHz sampling rates.
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Correlated States in Quantum Dot Clusters Coupled to a Common Superconductor
Canonical mapping of quantum-dot-superconductor clusters enables neural quantum-state calculations that reveal trivial singlet, Heisenberg-like, and critical regimes with 1D gaplessness and 2D triplet states.
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Tunable Resonator Integrated Magnetometry
A new class of superconducting tunable resonators enables fast, low-loss magnetometry at milli-kelvin temperatures with MHz sampling rates.