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· 2009

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Chip-scale superconducting quantum gravimeter combining a SQUID, a transmon, and a nanomechanical resonator

quant-ph · 2026-01-01 · unverdicted · novelty 7.0

A proposed chip-scale device combines a transmon qubit, SQUID, and nanomechanical resonator to achieve projected gravitational sensitivity of 100-1000 nGal per square root Hz with sub-millisecond interrogation times.

Sequential Spatiotemporal Magnetic-Field Reconstruction via Quantum Hamiltonian Learning with NV-Center Spin-1 Hamiltonians

quant-ph · 2026-05-22

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Chip-scale superconducting quantum gravimeter combining a SQUID, a transmon, and a nanomechanical resonator quant-ph · 2026-01-01 · unverdicted · none · ref 36
A proposed chip-scale device combines a transmon qubit, SQUID, and nanomechanical resonator to achieve projected gravitational sensitivity of 100-1000 nGal per square root Hz with sub-millisecond interrogation times.
Sequential Spatiotemporal Magnetic-Field Reconstruction via Quantum Hamiltonian Learning with NV-Center Spin-1 Hamiltonians quant-ph · 2026-05-22 · unreviewed · ref 21

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