Electrically-Small Rydberg Sensor for Three-Dimensional Determination of rf k-Vectors

Abstract

We present an electrically-small Rydberg atom electric field sensor with the ability to extract the three-dimensional k-vector of an elliptically polarized radio frequency (rf) field. In most mediums, the k-vector (or wave vector) provides the direction of propagation of an electromagnetic wave. Our method uses a field vector measurement at a single point in space and is thus compatible with a sensor volume that is arbitrarily small compared to the carrier wavelength. We measure the k-vector of a circularly polarized signal field with average absolute errors in the polar and azimuthal angles of 33~mrad and 43~mrad respectively, and statistical noise of 1.3~mrad/Hz and 1.5~mrad/Hz. Additionally, we characterize the performance of the sensor as a function of the ellipticity of the input field and the size of the sensing region. We find that the sensor works over a broad range of ellipticities and validate that an electrically-small sensing region is optimal.

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