Towards Rydberg Atom Synthetic Apertures: Wide-Area High-Resolution RF Amplitude and Phase Imaging With Rydberg Probes.

We present on the recent development of an atomic antenna probe and front-end based on Rydberg atoms for applications in radio-frequency (RF) imaging and synthetic apertures. Fundamental atom-RF responses and RF amplitude and phase determination methods for Rydberg atom probes are described. We demonstrate electric field imaging in the near-field of a 2.5 GHz Yagi-Uda antenna device under test (DUT) using a portable Rydberg atom probe and integrated front-end, the Rydberg Field Probe (RFP). A wide-area RF electric field map is generated by positioning of the RFP at discrete spatial measurement locations in the near field of the DUT, from which a composite image of the two-dimensional antenna pattern is realized at a spatial resolution of lambda/2 and field uncertainties within 5.5%. Finally, we demonstrate RF phase imaging of a 100 GHz field using a Rydberg EIT optical fluorescence imager and RF self-homodyning, towards RF phase-sensing and imaging at millimeter-wave frequencies.