
Fig2a.csv contains all of the data used in producing figure 2a:

Detuning is the experimental 2 photon detuning in MHz
Number is the measured number of Cs atoms normalised to the largest number
Theory x is the grid of detuning values in MHz used for the fit to the data
Theory y is the profile obtained by fitting the data with an analytical solution of the optical bloch equations for a 3 level lambda system

The same notation is used in Fig2b.csv which contains all of the data used in figure 2b
In this case Theory y is a lorentzian fit to the experimental data

Fig2c.csv contains all of the data used in figure 2c.
Theory y is a fano profile fitted to the data


Fig3a.csv contains all of the data used in producing figure 3a:

Frequency is the difference in frequency between the two lasers at the line centre of the Raman feature in MHz
Frequency Error is the uncertainty in the measured frequency
Intensity is the intensity of laser 1 in W/cm^2
Theory x is the range of intesnity values in W/cm^2 used for the fit to the data
Theory y is the model frequency difference from a linear fit to the data

The same notation is used in Fig3b.csv which contains all of the data used in figure 3b
Intensity in this dataset is the intensity of laser 2 in W/cm^2

Fig4.csv contains all of the data used in producing the plot in figure 4
The columns are labelled whether the line strength is measured using Autler-Townes spectroscopy (ATS) or from the gradient of the light shift measurements
Vibrational level is the vibrational number below dissociation of the electronic ground state
Line strength is (Omega_BB/2pi)^2 / I_2 in MHz/Wcm^-2
Line strength error is the uncertainty in the line strength measurement

Fig5a_Lower.csv, Fig5a_Middle.csv and Fig5a_Upper.csv contains the data used in producing the plots of figure 5a
Lower, middel and upper correspond to the panels of the figure and describe the 0 W/cm^2, 0.7 W/cm^2 and 3.7 W/cm^2 datasets respectively

Detuning is the experimental 2 photon detuning in MHz
Number is the measured number of Cs atoms normalised to the largest number
Theory x is the grid of detuning values in MHz used for the fit to the data
Theory y is the profile obtained by fitting the data with an analytical solution of the optical bloch equations for a 3 level lambda system

Fig5b.csv contains all of the data used in producing figure 5b
Frequency is the Rabi frequency in MHz extracted from fits to the experimental spectra
Frequency error is the uncertainty in the extracted Rabi frequency
Sqrt Intensity is the square root intensity of laser 2 in units of (W / cm^2)^(1/2)
Theory x is the range of intesnity values in used for the fit to the data
Theory y is the model Rabi frequency from a linear fit to the data





