Skip to content

W
White Rabbit Calibration
Commit de3f6112 authored by Peter Jansweijer's avatar Peter Jansweijer
Browse files
Options

changed lables in figures introducing method A and B

parent 9d77bd0d
Hide whitespace changes
Inline Side-by-side
Showing with 56 additions and 56 deletions
sw/insitu_alpha/ArticleErrorbarPlots/errorbarplots.py
View file @ de3f6112
......@@ -205,26 +205,26 @@ if __name__ == "__main__":
ax.set_ylabel("Time error [ps]")
ax.set_xlabel("measurement number")
#lns_a.append(ax.errorbar(selected_x_0, selected_time_err_a_0, yerr = selected_time_err_a_0_stddev, fmt='d', capsize=6, color='red', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1568.77 [nm]'))
#lns_a.append(ax.errorbar(selected_x_16, selected_time_err_a_16, yerr = selected_time_err_a_16_stddev, fmt='d', capsize=6, color='blue', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1554.94 [nm]'))
#lns_a.append(ax.errorbar(selected_x_32, selected_time_err_a_32, yerr = selected_time_err_a_32_stddev, fmt='d', capsize=6, color='grey', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1542.14 [nm]'))
#lns_a.append(ax.errorbar(selected_x_49, selected_time_err_a_49, yerr = selected_time_err_a_49_stddev, fmt='d', capsize=6, color='cyan', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1528.77 [nm]'))
lns_a.append(ax.errorbar(selected_x_7, selected_time_err_a_7, yerr = selected_time_err_a_7_stddev, fmt='d', capsize=6, color='orange', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1563.05 [nm]'))
lns_a.append(ax.errorbar(selected_x_8, selected_time_err_a_8, yerr = selected_time_err_a_8_stddev, fmt='d', capsize=6, color='yellow', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1562.23 [nm]'))
lns_a.append(ax.errorbar(selected_x_9, selected_time_err_a_9, yerr = selected_time_err_a_9_stddev, fmt='d', capsize=6, color='brown', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1560.61 [nm]'))
lns_a.append(ax.errorbar(selected_x_10, selected_time_err_a_10, yerr = selected_time_err_a_10_stddev, fmt='d', capsize=6, color='pink', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1559.79 [nm]'))
#lns_b.append(ax.errorbar(selected_x_0, selected_time_err_b_0, yerr = selected_time_err_b_0_stddev, fmt='h', capsize=6, color='red', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1568.77 [nm]'))
#lns_b.append(ax.errorbar(selected_x_16, selected_time_err_b_16, yerr = selected_time_err_b_16_stddev, fmt='h', capsize=6, color='blue', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1554.94 [nm]'))
#lns_b.append(ax.errorbar(selected_x_32, selected_time_err_b_32, yerr = selected_time_err_b_32_stddev, fmt='h', capsize=6, color='grey', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1542.14 [nm]'))
#lns_b.append(ax.errorbar(selected_x_49, selected_time_err_b_49, yerr = selected_time_err_b_49_stddev, fmt='h', capsize=6, color='cyan', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1528.77 [nm]'))
lns_b.append(ax.errorbar(selected_x_7, selected_time_err_b_7, yerr = selected_time_err_b_7_stddev, fmt='h', capsize=6, color='orange', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1563.05 [nm]'))
lns_b.append(ax.errorbar(selected_x_8, selected_time_err_b_8, yerr = selected_time_err_b_8_stddev, fmt='h', capsize=6, color='yellow', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1562.23 [nm]'))
lns_b.append(ax.errorbar(selected_x_9, selected_time_err_b_9, yerr = selected_time_err_b_9_stddev, fmt='h', capsize=6, color='brown', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1560.61 [nm]'))
lns_b.append(ax.errorbar(selected_x_10, selected_time_err_b_10, yerr = selected_time_err_b_10_stddev, fmt='h', capsize=6, color='pink', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1559.79 [nm]'))
lns.append(ax.errorbar(x, time_err_calc_sel, yerr = 0, fmt='*', color='blue', label='Calculated (Sellmeier)'))
lns.append(ax.errorbar(x, time_err_calc_3wl[0:10], yerr = 0, fmt='o', color='red', label=r'Calculated(3-$\lambda$)'))
#lns_a.append(ax.errorbar(selected_x_0, selected_time_err_a_0, yerr = selected_time_err_a_0_stddev, fmt='d', capsize=6, color='red', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1568.77 [nm]'))
#lns_a.append(ax.errorbar(selected_x_16, selected_time_err_a_16, yerr = selected_time_err_a_16_stddev, fmt='d', capsize=6, color='blue', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1554.94 [nm]'))
#lns_a.append(ax.errorbar(selected_x_32, selected_time_err_a_32, yerr = selected_time_err_a_32_stddev, fmt='d', capsize=6, color='grey', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1542.14 [nm]'))
#lns_a.append(ax.errorbar(selected_x_49, selected_time_err_a_49, yerr = selected_time_err_a_49_stddev, fmt='d', capsize=6, color='cyan', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1528.77 [nm]'))
lns_a.append(ax.errorbar(selected_x_7, selected_time_err_a_7, yerr = selected_time_err_a_7_stddev, fmt='d', capsize=6, color='orange', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1563.05 [nm]'))
lns_a.append(ax.errorbar(selected_x_8, selected_time_err_a_8, yerr = selected_time_err_a_8_stddev, fmt='d', capsize=6, color='yellow', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1562.23 [nm]'))
lns_a.append(ax.errorbar(selected_x_9, selected_time_err_a_9, yerr = selected_time_err_a_9_stddev, fmt='d', capsize=6, color='brown', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1560.61 [nm]'))
lns_a.append(ax.errorbar(selected_x_10, selected_time_err_a_10, yerr = selected_time_err_a_10_stddev, fmt='d', capsize=6, color='pink', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1559.79 [nm]'))
#lns_b.append(ax.errorbar(selected_x_0, selected_time_err_b_0, yerr = selected_time_err_b_0_stddev, fmt='h', capsize=6, color='red', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1568.77 [nm]'))
#lns_b.append(ax.errorbar(selected_x_16, selected_time_err_b_16, yerr = selected_time_err_b_16_stddev, fmt='h', capsize=6, color='blue', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1554.94 [nm]'))
#lns_b.append(ax.errorbar(selected_x_32, selected_time_err_b_32, yerr = selected_time_err_b_32_stddev, fmt='h', capsize=6, color='grey', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1542.14 [nm]'))
#lns_b.append(ax.errorbar(selected_x_49, selected_time_err_b_49, yerr = selected_time_err_b_49_stddev, fmt='h', capsize=6, color='cyan', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1528.77 [nm]'))
lns_b.append(ax.errorbar(selected_x_7, selected_time_err_b_7, yerr = selected_time_err_b_7_stddev, fmt='h', capsize=6, color='orange', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1563.05 [nm]'))
lns_b.append(ax.errorbar(selected_x_8, selected_time_err_b_8, yerr = selected_time_err_b_8_stddev, fmt='h', capsize=6, color='yellow', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1562.23 [nm]'))
lns_b.append(ax.errorbar(selected_x_9, selected_time_err_b_9, yerr = selected_time_err_b_9_stddev, fmt='h', capsize=6, color='brown', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1560.61 [nm]'))
lns_b.append(ax.errorbar(selected_x_10, selected_time_err_b_10, yerr = selected_time_err_b_10_stddev, fmt='h', capsize=6, color='pink', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1559.79 [nm]'))
lns.append(ax.errorbar(x, time_err_calc_sel, yerr = 0, fmt='*', color='blue', label=r'$t_{err_{c}}$ A'))
lns.append(ax.errorbar(x, time_err_calc_3wl[0:10], yerr = 0, fmt='o', color='red', label=r'$t_{err_{c}}$ B'))
#############################################################################################
labels = [l.get_label() for l in lns]
......@@ -442,26 +442,26 @@ if __name__ == "__main__":
ax.set_ylabel("Time error [ps]")
ax.set_xlabel("measurement number")
lns_a.append(ax.errorbar(selected_x_0, selected_time_err_a_0, yerr = selected_time_err_a_0_stddev, fmt='d', capsize=6, color='red', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1568.77 [nm]'))
lns_a.append(ax.errorbar(selected_x_16, selected_time_err_a_16, yerr = selected_time_err_a_16_stddev, fmt='d', capsize=6, color='blue', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1554.94 [nm]'))
lns_a.append(ax.errorbar(selected_x_32, selected_time_err_a_32, yerr = selected_time_err_a_32_stddev, fmt='d', capsize=6, color='grey', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1542.14 [nm]'))
lns_a.append(ax.errorbar(selected_x_49, selected_time_err_a_49, yerr = selected_time_err_a_49_stddev, fmt='d', capsize=6, color='cyan', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1528.77 [nm]'))
#lns_a.append(ax.errorbar(selected_x_7, selected_time_err_a_7, yerr = selected_time_err_a_7_stddev, fmt='d', capsize=6, color='orange', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1563.05 [nm]'))
#lns_a.append(ax.errorbar(selected_x_8, selected_time_err_a_8, yerr = selected_time_err_a_8_stddev, fmt='d', capsize=6, color='yellow', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1562.23 [nm]'))
#lns_a.append(ax.errorbar(selected_x_9, selected_time_err_a_9, yerr = selected_time_err_a_9_stddev, fmt='d', capsize=6, color='brown', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1560.61 [nm]'))
#lns_a.append(ax.errorbar(selected_x_10, selected_time_err_a_10, yerr = selected_time_err_a_10_stddev, fmt='d', capsize=6, color='pink', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ =1559.79 [nm]'))
lns_b.append(ax.errorbar(selected_x_0, selected_time_err_b_0, yerr = selected_time_err_b_0_stddev, fmt='h', capsize=6, color='red', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1568.77 [nm]'))
lns_b.append(ax.errorbar(selected_x_16, selected_time_err_b_16, yerr = selected_time_err_b_16_stddev, fmt='h', capsize=6, color='blue', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1554.94 [nm]'))
lns_b.append(ax.errorbar(selected_x_32, selected_time_err_b_32, yerr = selected_time_err_b_32_stddev, fmt='h', capsize=6, color='grey', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1542.14 [nm]'))
lns_b.append(ax.errorbar(selected_x_49, selected_time_err_b_49, yerr = selected_time_err_b_49_stddev, fmt='h', capsize=6, color='cyan', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1528.77 [nm]'))
#lns_b.append(ax.errorbar(selected_x_7, selected_time_err_b_7, yerr = selected_time_err_b_7_stddev, fmt='h', capsize=6, color='orange', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1563.05 [nm]'))
#lns_b.append(ax.errorbar(selected_x_8, selected_time_err_b_8, yerr = selected_time_err_b_8_stddev, fmt='h', capsize=6, color='yellow', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1562.23 [nm]'))
#lns_b.append(ax.errorbar(selected_x_9, selected_time_err_b_9, yerr = selected_time_err_b_9_stddev, fmt='h', capsize=6, color='brown', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1560.61 [nm]'))
#lns_b.append(ax.errorbar(selected_x_10, selected_time_err_b_10, yerr = selected_time_err_b_10_stddev, fmt='h', capsize=6, color='pink', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ =1559.79 [nm]'))
lns.append(ax.errorbar(x, time_err_calc_sel, yerr = 0, fmt='*', color='blue', label='Calculated (Sellmeier)'))
lns.append(ax.errorbar(x, time_err_calc_3wl[10:23], yerr = 0, fmt='o', color='red', label=r'Calculated(3-$\lambda$)'))
lns_a.append(ax.errorbar(selected_x_0, selected_time_err_a_0, yerr = selected_time_err_a_0_stddev, fmt='d', capsize=6, color='red', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1568.77 [nm]'))
lns_a.append(ax.errorbar(selected_x_16, selected_time_err_a_16, yerr = selected_time_err_a_16_stddev, fmt='d', capsize=6, color='blue', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1554.94 [nm]'))
lns_a.append(ax.errorbar(selected_x_32, selected_time_err_a_32, yerr = selected_time_err_a_32_stddev, fmt='d', capsize=6, color='grey', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1542.14 [nm]'))
lns_a.append(ax.errorbar(selected_x_49, selected_time_err_a_49, yerr = selected_time_err_a_49_stddev, fmt='d', capsize=6, color='cyan', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1528.77 [nm]'))
#lns_a.append(ax.errorbar(selected_x_7, selected_time_err_a_7, yerr = selected_time_err_a_7_stddev, fmt='d', capsize=6, color='orange', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1563.05 [nm]'))
#lns_a.append(ax.errorbar(selected_x_8, selected_time_err_a_8, yerr = selected_time_err_a_8_stddev, fmt='d', capsize=6, color='yellow', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1562.23 [nm]'))
#lns_a.append(ax.errorbar(selected_x_9, selected_time_err_a_9, yerr = selected_time_err_a_9_stddev, fmt='d', capsize=6, color='brown', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1560.61 [nm]'))
#lns_a.append(ax.errorbar(selected_x_10, selected_time_err_a_10, yerr = selected_time_err_a_10_stddev, fmt='d', capsize=6, color='pink', label=r'$t_{err_{m}}$ A, $\lambda_{2}$ =1559.79 [nm]'))
lns_b.append(ax.errorbar(selected_x_0, selected_time_err_b_0, yerr = selected_time_err_b_0_stddev, fmt='h', capsize=6, color='red', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1568.77 [nm]'))
lns_b.append(ax.errorbar(selected_x_16, selected_time_err_b_16, yerr = selected_time_err_b_16_stddev, fmt='h', capsize=6, color='blue', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1554.94 [nm]'))
lns_b.append(ax.errorbar(selected_x_32, selected_time_err_b_32, yerr = selected_time_err_b_32_stddev, fmt='h', capsize=6, color='grey', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1542.14 [nm]'))
lns_b.append(ax.errorbar(selected_x_49, selected_time_err_b_49, yerr = selected_time_err_b_49_stddev, fmt='h', capsize=6, color='cyan', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1528.77 [nm]'))
#lns_b.append(ax.errorbar(selected_x_7, selected_time_err_b_7, yerr = selected_time_err_b_7_stddev, fmt='h', capsize=6, color='orange', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1563.05 [nm]'))
#lns_b.append(ax.errorbar(selected_x_8, selected_time_err_b_8, yerr = selected_time_err_b_8_stddev, fmt='h', capsize=6, color='yellow', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1562.23 [nm]'))
#lns_b.append(ax.errorbar(selected_x_9, selected_time_err_b_9, yerr = selected_time_err_b_9_stddev, fmt='h', capsize=6, color='brown', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1560.61 [nm]'))
#lns_b.append(ax.errorbar(selected_x_10, selected_time_err_b_10, yerr = selected_time_err_b_10_stddev, fmt='h', capsize=6, color='pink', label=r'$t_{err_{m}}$ B, $\lambda_{2}$ =1559.79 [nm]'))
lns.append(ax.errorbar(x, time_err_calc_sel, yerr = 0, fmt='*', color='blue', label=r'$t_{err_{c}}$ A'))
lns.append(ax.errorbar(x, time_err_calc_3wl[10:23], yerr = 0, fmt='o', color='red', label=r'$t_{err_{c}}$ B'))
#############################################################################################
labels = [l.get_label() for l in lns]
......
sw/insitu_alpha/analyze_sellmeier.py
View file @ de3f6112
......@@ -975,23 +975,23 @@ def analyze_plot(insitu_file, analyse_single, x, y, name, tolerance, use_itu_cha
#PLOT_A = False
#if PLOT_A:
lns_a.append(ax.errorbar(selected_wavelength_0, selected_alpha_3wl_a_0, yerr = selected_alpha_3wl_a_0_stddev, fmt='d', capsize=6, color='red', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1568.77 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_16, selected_alpha_3wl_a_16, yerr = selected_alpha_3wl_a_16_stddev, fmt='d', capsize=6, color='blue', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1554.94 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_32, selected_alpha_3wl_a_32, yerr = selected_alpha_3wl_a_32_stddev, fmt='d', capsize=6, color='grey', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1542.14 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_49, selected_alpha_3wl_a_49, yerr = selected_alpha_3wl_a_49_stddev, fmt='d', capsize=6, color='cyan', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1528.77 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_7, selected_alpha_3wl_a_7, yerr = selected_alpha_3wl_a_7_stddev, fmt='d', capsize=6, color='orange', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1563.05 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_8, selected_alpha_3wl_a_8, yerr = selected_alpha_3wl_a_8_stddev, fmt='d', capsize=6, color='yellow', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1562.23 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_9, selected_alpha_3wl_a_9, yerr = selected_alpha_3wl_a_9_stddev, fmt='d', capsize=6, color='brown', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1560.61 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_10, selected_alpha_3wl_a_10, yerr = selected_alpha_3wl_a_10_stddev, fmt='d', capsize=6, color='pink', label=r'3-$\lambda$ (III-B), $\lambda_{2}$ = 1559.79 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_0, selected_alpha_3wl_a_0, yerr = selected_alpha_3wl_a_0_stddev, fmt='d', capsize=6, color='red', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1568.77 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_16, selected_alpha_3wl_a_16, yerr = selected_alpha_3wl_a_16_stddev, fmt='d', capsize=6, color='blue', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1554.94 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_32, selected_alpha_3wl_a_32, yerr = selected_alpha_3wl_a_32_stddev, fmt='d', capsize=6, color='grey', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1542.14 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_49, selected_alpha_3wl_a_49, yerr = selected_alpha_3wl_a_49_stddev, fmt='d', capsize=6, color='cyan', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1528.77 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_7, selected_alpha_3wl_a_7, yerr = selected_alpha_3wl_a_7_stddev, fmt='d', capsize=6, color='orange', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1563.05 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_8, selected_alpha_3wl_a_8, yerr = selected_alpha_3wl_a_8_stddev, fmt='d', capsize=6, color='yellow', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1562.23 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_9, selected_alpha_3wl_a_9, yerr = selected_alpha_3wl_a_9_stddev, fmt='d', capsize=6, color='brown', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1560.61 [nm]'))
lns_a.append(ax.errorbar(selected_wavelength_10, selected_alpha_3wl_a_10, yerr = selected_alpha_3wl_a_10_stddev, fmt='d', capsize=6, color='pink', label=r'$\alpha_{3-\lambda}$ A, $\lambda_{2}$ = 1559.79 [nm]'))
#else:
lns_b.append(ax.errorbar(selected_wavelength_0, selected_alpha_3wl_b_0, yerr = selected_alpha_3wl_b_0_stddev, fmt='h', capsize=6, color='red', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1568.77 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_16, selected_alpha_3wl_b_16, yerr = selected_alpha_3wl_b_16_stddev, fmt='h', capsize=6, color='blue', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1554.94 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_32, selected_alpha_3wl_b_32, yerr = selected_alpha_3wl_b_32_stddev, fmt='h', capsize=6, color='grey', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1542.14 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_49, selected_alpha_3wl_b_49, yerr = selected_alpha_3wl_b_49_stddev, fmt='h', capsize=6, color='cyan', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1528.77 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_7, selected_alpha_3wl_b_7, yerr = selected_alpha_3wl_b_7_stddev, fmt='h', capsize=6, color='orange', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1563.05 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_8, selected_alpha_3wl_b_8, yerr = selected_alpha_3wl_b_8_stddev, fmt='h', capsize=6, color='yellow', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1562.23 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_9, selected_alpha_3wl_b_9, yerr = selected_alpha_3wl_b_9_stddev, fmt='h', capsize=6, color='brown', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1560.61 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_10, selected_alpha_3wl_b_10, yerr = selected_alpha_3wl_b_10_stddev, fmt='h', capsize=6, color='pink', label=r'3-$\lambda$ (III-C), $\lambda_{2}$ = 1559.79 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_0, selected_alpha_3wl_b_0, yerr = selected_alpha_3wl_b_0_stddev, fmt='h', capsize=6, color='red', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1568.77 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_16, selected_alpha_3wl_b_16, yerr = selected_alpha_3wl_b_16_stddev, fmt='h', capsize=6, color='blue', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1554.94 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_32, selected_alpha_3wl_b_32, yerr = selected_alpha_3wl_b_32_stddev, fmt='h', capsize=6, color='grey', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1542.14 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_49, selected_alpha_3wl_b_49, yerr = selected_alpha_3wl_b_49_stddev, fmt='h', capsize=6, color='cyan', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1528.77 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_7, selected_alpha_3wl_b_7, yerr = selected_alpha_3wl_b_7_stddev, fmt='h', capsize=6, color='orange', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1563.05 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_8, selected_alpha_3wl_b_8, yerr = selected_alpha_3wl_b_8_stddev, fmt='h', capsize=6, color='yellow', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1562.23 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_9, selected_alpha_3wl_b_9, yerr = selected_alpha_3wl_b_9_stddev, fmt='h', capsize=6, color='brown', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1560.61 [nm]'))
lns_b.append(ax.errorbar(selected_wavelength_10, selected_alpha_3wl_b_10, yerr = selected_alpha_3wl_b_10_stddev, fmt='h', capsize=6, color='pink', label=r'$\alpha_{3-\lambda}$ B, $\lambda_{2}$ = 1559.79 [nm]'))
lns.append(ax.errorbar(selected_wavelength, selected_alpha_sel, yerr = selected_alpha_sel_stddev, fmt='*', capsize=6, color='green', label='Sellmeier'))
#############################################################################################
......
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment