TY - JOUR
T1 - Quantum-inspired microwave phase superresolution at room temperature
AU - Vidro, Leonid
AU - Shirizly, Liran
AU - Kirsh, Naftali
AU - Katz, Nadav
AU - Eisenberg, Hagai S.
N1 - Publisher Copyright:
© 2024 American Physical Society.
PY - 2024/9
Y1 - 2024/9
N2 - Quantum metrology has been shown to surpass classical limits of correlation, resolution, and sensitivity. It has been introduced to interferometric radar schemes, with intriguing preliminary results. Even quantum-inspired detection of classical signals may be advantageous in specific use cases. Following ideas demonstrated so far only in the optical domain, where practically no thermal background photons exist, we realize room-temperature microwave frequency super-resolved phase measurements with trillions of photons, while saturating the Cramer-Rao bound of sensitivity. We experimentally estimate the interferometric phase using the expectation value of the parity operator by two methods. We achieve superresolution up to 1200 times better than the wavelength with 25-ns integration time and 56-dB SNR.
AB - Quantum metrology has been shown to surpass classical limits of correlation, resolution, and sensitivity. It has been introduced to interferometric radar schemes, with intriguing preliminary results. Even quantum-inspired detection of classical signals may be advantageous in specific use cases. Following ideas demonstrated so far only in the optical domain, where practically no thermal background photons exist, we realize room-temperature microwave frequency super-resolved phase measurements with trillions of photons, while saturating the Cramer-Rao bound of sensitivity. We experimentally estimate the interferometric phase using the expectation value of the parity operator by two methods. We achieve superresolution up to 1200 times better than the wavelength with 25-ns integration time and 56-dB SNR.
UR - http://www.scopus.com/inward/record.url?scp=85203588557&partnerID=8YFLogxK
U2 - 10.1103/PhysRevApplied.22.034008
DO - 10.1103/PhysRevApplied.22.034008
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AN - SCOPUS:85203588557
SN - 2331-7019
VL - 22
JO - Physical Review Applied
JF - Physical Review Applied
IS - 3
M1 - 034008
ER -