Note
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Bieniewski-e¶
Data for Main / Cds / Bieniewski-e
import os
import matplotlib.pyplot as plt
import numpy as np
import refidx as ri
plt.style.use("../../doc/refidx.mplstyle")
db = ri.DataBase()
matid = ['main', 'CdS', 'Bieniewski-e']
mat = db.get_item(matid)
wr = mat.wavelength_range
lamb = np.linspace(*wr, 1000)
index = mat.get_index(lamb)
fig, ax = plt.subplots(2, 1, figsize=(3, 3))
ax[0].plot(lamb, index.real, "-", color="#aa0044")
ax[1].plot(lamb, index.imag, "-", color="#6886b3")
ax[0].set_xlabel(r"Wavelength ($\rm μm$)")
ax[1].set_xlabel(r"Wavelength ($\rm μm$)")
ax[0].set_ylabel(r"$n^{\prime}$")
ax[1].set_ylabel(r"$n^{\prime\prime}$")
plt.suptitle(mat)
mat.print_info(
html=True,
tmp_dir=os.path.join("..","..", "doc", "auto_gallery","CdS"),
filename="out_main_CdS_Bieniewski_e.html",
)
Comments
Extraordinary ray (e). 25 °C.
References
1) T. M. Bieniewski and S. J. Czyzak. Refractive indexes of single hexagonal ZnS and CdS crystals, J. Opt. Soc. Am. 53, 496-497 (1963)
2) M. Sanchez Gomez, J. M. Guerra, and F. Vilches. Weighted nonlinear regression analysis of a Sellmeier expansion: comparison of several nonlinear fits of CdS dispersion, Appl. Opt. 24, 1147-1150 (1985)* Ref. 2 provides a dispersion formula based on data from ref. 1
Total running time of the script: (0 minutes 0.336 seconds)
Estimated memory usage: 225 MB