Abstract JUQ-378 is a proposed compact, networked quantum sensor architecture designed for dense, low-power deployment in urban environments to measure magnetic fields, air pollutants, and acoustic signatures with unprecedented sensitivity and spatial resolution. This paper defines the system architecture, underlying quantum sensing modalities (nitrogen-vacancy centers in diamond for magnetometry; cold-atom interferometry for inertial sensing; and optomechanical resonators for acoustic detection), data fusion algorithms, calibration and error models, deployment strategies, and privacy-aware data handling. We present theoretical sensitivity analyses, simulated urban deployment scenarios, a design-for-manufacturability path, and an experimental validation roadmap. JUQ-378 targets applications in urban air-quality mapping, infrastructure health monitoring, and public-safety situational awareness.
10.1107/S2053230X22005478
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Appendices A. Mathematical derivations of sensitivity limits for NV magnetometry and atom interferometers. B. Example firmware data flow and pseudo-code for on-node event detection. C. Simulation parameters and urban testbed assumptions. D. Suggested datasets and metrics for pilot evaluation. Abstract JUQ-378 is a proposed compact, networked quantum
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