Supplemental data for characterization of alpha and beta interactions using the HeXe setup [arXiv: 2109.13735]

>>>Preliminary Dataset<<< As the article has not yet been peer-reviewed. Pre-print available on arXiv: 2109.13735 Repository with supplemental data to: Characterization of alpha and electron interactions in liquid xenon Note: When re-using the data, please make sure to cite the article (and not only the dataset) The files contain the measured data points (as well as their statistical and systematic uncertainties) as shown in the publication. All datasets are stored in the .csv format. 20210924_yields_hexe_kr83m.csv This file contains the normalized light and charge yields as a function of the applied field from the measurement with the 83mKr source. The data is shown in Figure 16 (dots) of the publication 20210924_yields_hexe_rn222.csv This file contains the normalized light and charge yields as a function of the applied field from the measurement with the 222Rn source. The data is shown in Figure 17 (blue-ish points) of the publication 20210924_drift_velocity_hexe_rn222.csv This file contains the measured electron drift velocity in liquid xenon at a temperature of 174.4 K in dependence of the field. The data was acquired using the  222Rn source. Drift velocity is given in units of mm/µs and the datapoints are shown in Figure 19 (black dots) of the publication  20210924_drift_velocity_hexe_kr83m.csv This file contains the measured electron drift velocity in liquid xenon at a temperature of 174.4 K in dependence of the field. The data was acquired using the  83mKr source. Drift velocity is given in units of mm/µs and are not displayed in the publications due to visibility reasons. Minimum working example to plot the drift velocity using the 83mKr data: 1 import numpy as np 2 import matplotlib.pyplot as plt 3 4 # load the data set 5 data = np.loadtxt("20210924_drift_velocity_hexe_kr83m.csv", delimiter=",") 6 7 # Plot the systematic uncertainty on the drift field 8 plt.errorbar(data[:,0], data[:,2], xerr=data[:,1], fmt="o", capsize=2, ecolor="darkgray", 9 alpha=0.7, elinewidth=3, color="black") 10 11 # Plot the actual data points 12 plt.errorbar(data[:,0], data[:,2], yerr=data[:,3], fmt="o", color="black") 13 14 # Label the axis and define the range 15 plt.ylabel("Drift Velocity [mm/µs]") 16 plt.xlabel("Drift Field [kV/cm]") 17 plt.xscale("log") 18 plt.xlim(0.006, 2) 19 plt.ylim(0, 2.4) 20 plt.show()