An Atomic Receiver for AM and FM Radio Communication

Radio reception relies on antennas for the collection of electromagnetic fields carrying information, and receiver elements for demodulation and retrieval of the transmitted information. Here, we demonstrate an atom-based receiver for AM and FM microwave communication with a 3 dB bandwidth in the baseband of similar to 100 kHz that provides optical circuit-free field pickup, multiband carrier capability, and inherently high field sensitivity. The atom-based receiver exploits field-sensitive cesium Rydberg vapors in a centimeter-sized glass cell, and electromagnetically induced transparency, a quantum-optical effect, as a readout of baseband signals modulated onto carriers with frequencies ranging over four octaves, from C-band to Q-band. Receiver bandwidth, dynamic range and sideband suppression are characterized, and acquisition of audio waveforms of human vocals demonstrated. The atomic receiver is a valuable receiver technology because it does not require antenna structures and is resilient against electromagnetic interference, while affording multiband operation in a single compact receiving element.

Automated summary

The atom-based receiver utilizes field-sensitive cesium Rydberg vapors and electromagnetically induced transparency to achieve reception of AM and FM microwave communication, with high sensitivity and multiband carrier capability. This receiver technology does not require antenna structures, is resilient against electromagnetic interference, and can operate in multiple bands within a single compact receiving element.