A Rydberg-atom vapor cell dressed by a local-oscillator field forms a continuous quantum aperture that enables reconfigurable single-peak, multi-peak, and multiband beamforming from one sensing volume, verified experimentally.
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2 Pith papers cite this work. Polarity classification is still indexing.
fields
quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Compressive spectral multiplexing via FMLO in a waveguide-coupled Rydberg receiver compresses over 640 MHz spectrum into 126 kHz atomic bandwidth with compression ratio exceeding 1000 and ~10 dB SNR gain via maximal-ratio combining.
citing papers explorer
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Continuous Quantum Aperture: Beamforming with a Single-Vapor-Cell Rydberg Receiver
A Rydberg-atom vapor cell dressed by a local-oscillator field forms a continuous quantum aperture that enables reconfigurable single-peak, multi-peak, and multiband beamforming from one sensing volume, verified experimentally.
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Compressive Spectrum Sensing via Spectral Multiplexing in Rydberg Atomic Receiver
Compressive spectral multiplexing via FMLO in a waveguide-coupled Rydberg receiver compresses over 640 MHz spectrum into 126 kHz atomic bandwidth with compression ratio exceeding 1000 and ~10 dB SNR gain via maximal-ratio combining.