Spectral Response of Low-Loss Optical Waveguides

“…A reference has also been made by coupling the input and output fibers together. At λ¼ 0.405 μm the linear propagation losses have been deduced by a cut-back method [17]. The results obtained are summarized in Table 2.…”

Development of Tl+/Na+ ion-exchanged single-mode waveguides on silicate glass for visible-blue wavelengths applications

“…A reference has also been made by coupling the input and output fibers together. At λ¼ 0.405 μm the linear propagation losses have been deduced by a cut-back method [17]. The results obtained are summarized in Table 2.…”

Development of Tl+/Na+ ion-exchanged single-mode waveguides on silicate glass for visible-blue wavelengths applications

“…20 For attenuation measurements, we utilized the setup as shown in Fig. 4, which consists of a sample holder, a 50-μm MM glass-optical fiber, and an Ophir Spiricon ® 620U beam profiler equipped with a 20× Olympus ® Plan N microscope objective.…”

Manufacturing of embedded multimode waveguides by reactive lamination of cyclic olefin polymer and polymethylmethacrylate

“…This leaves water, in the form of OH-ions, as the most serious absorber in fused silica at optical frequencies. [63,641 It is the overtone and the combination bands of the OH-stretching vibration whose fundamental, centered at 2730 nm, gives rise to the absorption peaks in the wavelength range of 700-1600 nm in fused silica. In Table 2, we reproduce from the paper by Keck, Maurer, and Schultz [ 651 the expected positions of the OH-bands in fused silica.…”

Optical communication fiber waveguide fabrication: A review