Microwave electrometry with Rydberg atoms in a vapor cell using microwave amplitude modulation

Abstract

We have theoretically and experimentally studied the dispersive signal of the Rydberg atomic electromagnetically induced transparency (EIT) - Autler-Townes (AT) splitting spectra obtained using amplitude modulation of the microwave (MW) field. In addition to the two zero-crossing points, the dispersion signal has two positive maxima with an interval defined as the shoulder interval of the dispersion signal fsho. The relationship of MW field strength EMW and fsho are studied at the MW frequencies of 31.6 GHz, 22.1 GHz, and 9.2 GHz respectively. The results show that fsho can be used to character the much weaker EMW than the interval of two zero-crossing points fzeros and the traditional EIT-AT splitting interval fm, the minimum EMW measured by fsho is about 30 times smaller than that by fm. As an example, the minimum EMW at 9.2 GHz that can be characterized by fsho is 0.056 mV/cm, which is the minimum value characterized by frequency interval using vapour cell without adding any auxiliary fields. The proposed method can improve the weak limit and sensitivity of EMW measured by spectral frequency interval, which is important in the direct measurement of weak EMW.