A Fisher information framework for Rydberg EIT sensing of low-frequency fields proposes a DC-biased two-point differential method achieving ~10^{-4} V/m/sqrt(Hz) CRLB sensitivity, with cavity enhancement boosting Fisher information by over 100 times.
Atomic superheterodyne receiver based on microwave-dressed rydberg spectroscopy
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Coherent THz-to-optical conversion in warm Rb vapor via adjustable optical probe interference enables tomographic reconstruction of THz field amplitude and phase.
citing papers explorer
-
Sensing of Low-Frequency Electric Fields Using Rydberg EIT within the Fisher Information Framework
A Fisher information framework for Rydberg EIT sensing of low-frequency fields proposes a DC-biased two-point differential method achieving ~10^{-4} V/m/sqrt(Hz) CRLB sensitivity, with cavity enhancement boosting Fisher information by over 100 times.
-
Coherent terahertz field tomographic imaging in warm Rydberg vapors
Coherent THz-to-optical conversion in warm Rb vapor via adjustable optical probe interference enables tomographic reconstruction of THz field amplitude and phase.