Figure 4.1
Scans of various excited state transitions. Identified with letter (a)-(g) as in the figure. The frequency given is the offset from the nearest mode of the reference cavity. Error bars are 1 sigma statistical uncertainties on averages of multiple experimental shots.
Note data set (g) is the same as in the inset to figure 4.6.

Figure 4.2
Experimental data is given as in the figure.

Figure 4.3
Laser frequencies are given relative to the fitted centre of the lowest peak.

Figure 4.4
We give the molecule number from each experimental run, and the averaged data with statistical error bars as shown in the figure.

Figure 4.5(a)
See figure 6.1b

Figure 4.5(b)
We give the magnetic fields, normalised Rabi frequencies and error bars as shown in the figure.

Figure 4.5(c)
We give the atom numbers from each experimental run, and the averages and standard errors as shown in the figure.

Figure 4.6
Experimental data and error bars as shown in the figure.

Figure 4.7
Experimental data and error bars as shown in the figure.

Figure 4.9
Molecule numbers from individual experimental runs, with the voltage applied to each rod (note one rod will have the negative of this value).

Figure 4.10(a)
Molecule numbers from individual experimental runs, with the detuning from the transition position at zero electric field for each shot.

Figure 4.10(b)
The position of each state is given at each electric field. The quantum numbers have not been identified, so the states are identified by color in the figure, and by number from bottom to top (1=bottom/black, 4=top/blue). Detunings are all given relative to the position of the lowest state at zero electric field.

Figure 4.11
We give the positions of the points shown in the figure. In the folder "\Figure 4.11 extended" we provide the spectroscopy curves for all these points. These are identified by the voltage applied to electrodes, as listed in the main figure data "Figure 4.11.csv".
For the 2000 V and 2500 V curves, the Pump laser was locked to a negative sideband of the next higher cavity mode compared to the other data sets. The cavity mode spacing is well-known from chapter 3.