This repository contains the data used to make the figures in the supplementary information of
"Controlling lasing around exceptional points in coupled nanolasers"
(A. Fischer et al.; https://doi.org/10.1038/s44310-024-00006-9).

The full repository should be available under https://doi.org/10.5281/zenodo.10683232

The files are named according to which figure they correspond to, and are as follows:

# Figure S1
* figS1b_spectra.csv - 2d array containing the plotted spectra
* figS1b_fluences.csv - Pump laser fluencies corresponding to the spectra
* figS1b_wavelength.csv - Wavelengths for x-axis

*figS1c_LLcurve.csv - 2d array with Peak intensities and corresponding pump fluences. The threshold was obtained by performing two linear fits between [0:5] and [5:19] 

# Figure S2
* figS2_spectra.csv - 2d array containing the plotted spectra
* figS2_wavelength.csv - Wavelengths for x-axis
* figS2_fluences.csv - Pump laser fluencies corresponding to the spectra and emission intensity data
* figS2_IntegratedIntensity.csv - Emission intensity (integrated) for LL curve. The intersection between two linear fits (between [40:61] and [62:90]) gives the lasing threshold


# Figure S5
* figS5_data.csv - The first array gives the integrated intensity counts and the second the corresponding P1 (power on disk one in uJ cm^(-2) pulse^(-1)). The start and end of the lasing gap were obtained by finding turning points in the intensity data and are datapoints [51,58]. 

# Figure S11
* figS11a_counts.csv - Emission intensity counts for colormap 
* figS11a_wl.csv - Wavelength values for x-axis
* figS11a_P2.csv - P2 values for y-axis

* figS11b_LasingGapStart.csv - P1 and P2 values for the start of the lasing gap in uJ cm^(-2) pulse^(-1)
* figS11b_LasingGapEnd.csv - P1 and P2 values for the end of the lasing gap in uJ cm^(-2) pulse^(-1)

# Figure S12
* figS12_counts.csv - 2d array of emission counts of the laser used for the upper plot
* figS12_wavelength.csv - Wavelength values used for x-axis
* figS12_P1.csv - Powers on disk 1 (uJ cm^(-2) pulse^(-1)) corresponding to the data in figS12_counts.csv 
* figS12_spectra.csv - Two spectra (rows 18 and 26 (starting from 0) in figS12_counts.csv) plotted in the lower part of the figure
* figS12_spectraPowers.csv - The two powers on disk 1 (uJ cm^(-2) pulse^(-1)) corresponding to the two spectra

# Figure S14
* figS14_counts.csv - 2d array of emission counts of the laser used for the upper plot
* figS14_wavelength.csv - Wavelength values used for x-axis
* figS14_P1.csv - Powers on disk 1 (uJ cm^(-2) pulse^(-1)) corresponding to the data in figS14_counts.csv 
* figS14_spectra.csv - Two spectra (rows 18 and 26 (starting from 0) in figS14_counts.csv) plotted in the lower part of the figure
* figS14_spectraPowers.csv - The two powers on disk 1 (uJ cm^(-2) pulse^(-1)) corresponding to the two spectra

# Figure S15
* figS15_spectra.csv - 2d array containing the plotted spectra
* figS15_wavelengths.csv - Wavelengths for x-axis






