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at #3655Tingting ZhangKeymaster
In a quantum sensor, atoms in a glass vapour cell are excited with laser beams to Rydberg states. They detect the electric fields (from the gold antenna in the background) and imprint the information back onto the laser beams.
U.S. Army researchers believe a quantum sensor could give soldiers a way to detect communication signals over the entire 0 to 100 GHz radio frequency spectrum. The wide spectral coverage by a single antenna is impossible with a traditional receiver system and would require multiple systems of individual antennas, amplifiers and other components.
In 2018, Army scientists created a quantum receiver that uses highly excited, super-sensitive atoms—known as Rydberg atoms—to detect communications signals, according to David Meyer, a scientist at the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory.
The researchers calculated the receiver’s channel capacity, or rate of data transmission, based on fundamental principles, and then achieved that performance experimentally in their lab—improving on other groups’ results by orders of magnitude, Meyer noted.
“These new sensors can be very small and virtually undetectable, giving soldiers a disruptive advantage,” Meyer said. “Rydberg-atom based sensors have only recently been considered for general electric field sensing applications, including as a communications receiver. While Rydberg atoms are known to be broadly sensitive, a quantitative description of the sensitivity over the entire operational range has never been done.”
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To assess potential applications, Army scientists conducted an analysis of the Rydberg sensor’s sensitivity to oscillating electric fields over an enormous range of frequencies—from 0 to 1012 Hertz. The results show that the Rydberg sensor can reliably detect signals over the entire spectrum and compare favourably with other established electric field sensor technologies, such as electro-optic crystals and dipole antenna-coupled passive electronics.
“Quantum mechanics allows us to know the sensor calibration and ultimate performance to a very high degree, and it’s identical for every sensor,” Meyer said. “This result is an important step in determining how this system could be used in the field.”
This work supports the Army’s modernization priorities in next-generation computer networks and assured position, navigation and timing, as it could potentially influence novel communications concepts or approaches to detection of RF signals for geolocation.
By: Spencer Chin
From: https://www.fierceelectronics.com/sensors/quantum-sensor-covers-entire-rf-range
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