Measurements of the hyperfine structure of nPJ Rydberg states by microwave spectroscopy in Cs atoms

Abstract

We present measurements of hyperfine structure (HFS) of the nPJ Rydberg states for large principal quantum number n range (n=41-55) employing the microwave spectroscopy in an ultra-cold cesium Rydberg ensemble. A microwave field with 30-μs duration couples the nS nP transition, yielding a narrow linewidth spectroscopy that approaches the Fourier limit, which allows us to resolve the hyperfine structure of nPJ states. By analyzing the hyperfine splittings of nPJ states, we determine the magnetic-dipole HFS coupling constant AHFS,P1/2=3.760(26) ~GHz for P1/2 state, AHFS,P3/2= 0.718(27)~GHz, and BHFS,P3/2= -0.084(102)~GHz for P3/2 state, respectively. Systematic uncertainties caused by stray electromagnetic field, microwave field power and Rydberg interaction are analyzed. This measurement is significant for the investigation of Rydberg electrometry and quantum simulation with dipole interaction involving nPJ state.

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