Umegaki-e

Data for Main / Liio3 / Umegaki-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', 'LiIO3', 'Umegaki-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","LiIO3"),
    filename="out_main_LiIO3_Umegaki_e.html",
)
Material main LiIO3 Umegaki-e
Comments

Room temperature. Extraordinary ray (e).

References

1) S. Umegaki, S.-I. Tanaka, T. Uchiyama, S. Yabumoto. Refractive indices of lithium iodate between 0.4 and 2.2 μ, Opt. Commun. 3, 244-245 (1971).
2) V. I. Kabelka, A. S. Piskarskas, A. Y. Stabinis, R. L. Sher. Group matching of interacting light pulses in nonlinear crystals, Sov. J. Quant. Electron. 5, 255-256 (1975).
3) K. Kato. High-power difference-frequency generation at 4.4-5.7 µm in LiIO3, IEEE. J. Quant. Electron. 21, 119-120 (1985).
* Reference 2 presented a dispersion formula based on tabulated data from Reference 1. The accuracy of the formula was confirmed in Reference 3, which extended the range of validity.

Total running time of the script: (0 minutes 0.358 seconds)

Estimated memory usage: 225 MB

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