Figure4.csv contains all of the data used in producing the plots in figure 4:
Column A is the detuning of the 399 nm laser.
Column B is the fluoresence signal at T = 470 C when scanning the 399 nm laser.
Column C is the detuning of the 399 nm laser (INSET).
Column D is the fluoresence signal of 168Yb at T=540 C when scanning the 399 nm laser (INSET).
Column E is a Gaussian fit to the 399 nm data (INSET).
Column F is the detuning of the 556 nm laser.
Column G is the fluoresence signal at T = 470 C when scanning the 556 nm laser.
Column H is the detuning of the 556 nm laser (INSET).
Column I is the fluoresence signal of 174Yb at T=470 C when scanning the 556 nm laser (INSET).
Column J is a Gaussian fit to the 556 nm data (INSET).


Figure5.csv contains all of the data used in producing the plots in figure 5:
Column A is the detuning of the 399 nm laser.
Column B is the fluoresence signal for horizantally polarised light.
Column C is the fluoresence signal for vertically polarised light.
Column D is the subtracted signal after scaling.



Figure6.csv contains all of the data used in producing the plots in figure 6:
Column A is the detuning of the 556 nm laser.
Column B is the fluoresence signal when the laser is scanned.
Column C is the fluoresence signal when the laser is locked.
Column D is the detuning of the 556 nm laser (INSET).
Column E is the output of the lock in amplifier (INSET).



Figure7.csv contains all of the data used in producing the plot in figure 7:
Columns A and D are the detuning of the MOT beams.
COlumn B gives the atomic fluorscence detected.
Column C gives the error on the atomic fluorescence measured.
COlumn E gives the fit to the atomic fluorscence.


Figure8.csv contains all of the data used in producing the plot in figure 8:
Column A gives the MOT light intensity.
Columns B and E are the measured value of the vertical sag of the MOT.
COlumns C and F are the error in the measured MOT sag.
Column D gives the detuning of the MOT beams.

