Low loss photonic waveguide having high index contrast glass layers

摘要

A low-loss photonic waveguide in the form of a Bragg optical fiber is provided that includes a dielectric core region extending along a waveguide axis that is characterized by a low amount of Rayleigh scattering, and a dielectric confinement region surrounding the dielectric core region that includes alternating layers of different glass compositions having relative refractive index differences that are at least 0.10, and preferably at least 0.30. The core region may be formed from air. The confinement region includes alternating high and low index glass layers wherein the high index layers are substantially pure silica mixed with index raising dopants that form enough % of the high index glass layers by weight to achieve the aforementioned 0.10 difference in indices of refraction, while the low index glass layers may be either substantially pure silica, or silica mixed with index lowering dopants to increase the index contrast between the layers. The use of alternating high and low index glass layers to form the dielectric confinement region allows the Bragg fiber to be usually manufactured on a large scale via conventional fiber optic fabricating techniques with relatively few steps. The resulting fiber is capable of conducting high photonic power levels, and is particularly compatible with short photonic wavelengths, such as ultraviolet light.