Figure 1 e
URL: https://data.nist.gov/od/ds/mds2-2669/fig1e.zip
Y-axis is the electric field determined by the separation of the two peaks in each trace data file, in V/m.X-axis in the coupling laser detuning in MHz, determined by the separation of the two peaks in the ref_cell data files, which is equal to -396 MHz.The color scale is the values in trace data files, averaged across the columns, normalized to the maximum value of the whole data set.Plot of AT splitting of the 56D EIT peak with an RF field applied to the 56D-53F tuning transition at 24.7 GHz. This data is also used to calculate the field strength corresponding to a given signal generator power, which in turn is used to determine the Rabi rates indicated on y-axes throughout the manuscript. The x-axis of the raw traces is in ?pixels? that are linearly distributed in frequency space. This axis needs to be set/generated for the false color plots using the ref_cell traces (one per set of measurements is sufficient). These ref_cell traces show two distinct spectral peaks: one large one and smaller one to the left. The large one is the main EIT peak of interest and the smaller left one is the fine structure peak located at -396 MHz (when coupled to 56D). Finding the difference between these peaks in the number of oscilloscope ?pixels? can then be used to convert between pixels and frequency to generate the x-axis
Source: Rydberg state engineering: A comparison of tuning schemes for continuous frequency sensing
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