Investigation of the Linear Electro-Optic Effect of Epitaxial Zinc Sulfide Films for Integrated Optics.
Investigation of the Linear Electro-Optic Effect of Epitaxial Zinc Sulfide Films for Integrated Optics.
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In our eReader you can find the full English version of the book. Read Investigation of the Linear Electro-Optic Effect of Epitaxial Zinc Sulfide Films for Integrated Optics. Online - link to read the book on full screen. Our eReader also allows you to upload and read Pdf, Txt, ePub and fb2 books. In the Mini eReder on the page below you can quickly view all pages of the book - Read Book Investigation of the Linear Electro-Optic Effect of Epitaxial Zinc Sulfide Films for Integrated Optics.
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Because of this, some energy goes into harmonics, and the original wave is attenuated. As a result, the phase factor encountered upon reflec- tion (or total internal refraction) must have an imaginary component to account for this loss in the TM case. Further, the phase change is less than it/2. Maximum attenuation (i.e., conversion to harmonics) occurs when B ^ 0.45, in which case only about 72% of the incident energy is reflected by the ionosphere.
For the optical waveguide case, B is very la...rge; hence a negligible loss should occur per reflection (i.e., per total internal refraction). However, unlike radio waves which reflect once from the ionosphere, light in a waveguide might be reflected many times during its passage within the guide. Perhaps, for certain index profiles, enough energy can be converted to higher harmonics to appreciably attenuate the TM wave. And perhaps, with the proper 52 phase matching, non-linear effects such as second-harmonic generation or parametric upconversion might take place.
What to read after Investigation of the Linear Electro-Optic Effect of Epitaxial Zinc Sulfide Films for Integrated Optics.?
You can find similar books in the "Read Also" column, or choose other free books by John Franklin Ebersole to read onlineMoreLess
To quickly assess the difficulty of the text, read a short excerpt:
Because of this, some energy goes into harmonics, and the original wave is attenuated. As a result, the phase factor encountered upon reflec- tion (or total internal refraction) must have an imaginary component to account for this loss in the TM case. Further, the phase change is less than it/2. Maximum attenuation (i.e., conversion to harmonics) occurs when B ^ 0.45, in which case only about 72% of the incident energy is reflected by the ionosphere.
For the optical waveguide case, B is very la...rge; hence a negligible loss should occur per reflection (i.e., per total internal refraction). However, unlike radio waves which reflect once from the ionosphere, light in a waveguide might be reflected many times during its passage within the guide. Perhaps, for certain index profiles, enough energy can be converted to higher harmonics to appreciably attenuate the TM wave. And perhaps, with the proper 52 phase matching, non-linear effects such as second-harmonic generation or parametric upconversion might take place.
What to read after Investigation of the Linear Electro-Optic Effect of Epitaxial Zinc Sulfide Films for Integrated Optics.?
You can find similar books in the "Read Also" column, or choose other free books by John Franklin Ebersole to read onlineMoreLess
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