Add to ORKGPolymeric large-core (47 mu m x 41 mu m) optical waveguides for optical interconnects have been fabricated by using a rubber molding process. For low-cost low-loss large-core waveguides, our newly developed thick-photoresist patterning process is used for a master fabrication. Also a low-loss thermocurable polymer, perfluorocyclobutane (PFCB), is used in fabricating optical waveguides by rubber molding for the first time. The propagation loss is measured to be 0.4 dB/cm at the wavelength of 1.3 mu m, and 0.7 dB/cm at the wavelength of 1.55 mu m.close344
A flexible approach to producing optical interconnects on 609.6 * 609.6 mm large-area panels is demo...
Various methods exist for fabrication of micron and submicron sized waveguide structures. However, m...
We report the fabrication of multimode polymeric waveguides using spin coating, photolithography, an...
We present a fabrication technology for integrating polymer waveguides and 45 degrees micromirror co...
Low-loss polymeric optical waveguides were fabricated by UV-nanoimprinting. With this technique the ...
We present a fabrication technology for integrating polymer waveguides and 45 degrees micromirror co...
We report about properties of large core plastic planar optical bend waveguides. The dimensions of t...
ABSTRACT: Low-loss optical waveguides have been fabricated from fluorinated copolymers designed to i...
Abstract—We report on advances in polymeric waveguide technologies developed worldwide for the telec...
We have synthesized novel polycyanurate polymer materials for optical waveguide applications. Single...
Optical waveguides are structures that confine and direct optical signals in a region of higher effe...
A robust polymeric waveguide technology is proposed for affordable optoelectronic interconnects in m...
In-plane bend loss represents the greatest commercial inhibitor to deploying multimode optical waveg...
A novel waveguide concept is presented, which is applicable to a multitude of optical polymers. It a...
Polymer films with high optical transmission have been investigated for making optical devices for s...
A flexible approach to producing optical interconnects on 609.6 * 609.6 mm large-area panels is demo...
Various methods exist for fabrication of micron and submicron sized waveguide structures. However, m...
We report the fabrication of multimode polymeric waveguides using spin coating, photolithography, an...
We present a fabrication technology for integrating polymer waveguides and 45 degrees micromirror co...
Low-loss polymeric optical waveguides were fabricated by UV-nanoimprinting. With this technique the ...
We present a fabrication technology for integrating polymer waveguides and 45 degrees micromirror co...
We report about properties of large core plastic planar optical bend waveguides. The dimensions of t...
ABSTRACT: Low-loss optical waveguides have been fabricated from fluorinated copolymers designed to i...
Abstract—We report on advances in polymeric waveguide technologies developed worldwide for the telec...
We have synthesized novel polycyanurate polymer materials for optical waveguide applications. Single...
Optical waveguides are structures that confine and direct optical signals in a region of higher effe...
A robust polymeric waveguide technology is proposed for affordable optoelectronic interconnects in m...
In-plane bend loss represents the greatest commercial inhibitor to deploying multimode optical waveg...
A novel waveguide concept is presented, which is applicable to a multitude of optical polymers. It a...
Polymer films with high optical transmission have been investigated for making optical devices for s...
A flexible approach to producing optical interconnects on 609.6 * 609.6 mm large-area panels is demo...
Various methods exist for fabrication of micron and submicron sized waveguide structures. However, m...
We report the fabrication of multimode polymeric waveguides using spin coating, photolithography, an...