SU563370A1 - Glass used for light guides - Google Patents

Description

one

The invention relates to glass compositions that can be used to make self-focusing light guides by ion exchange treatment in molten salts.

Known glass based on SiOg, B20z, GeO2, R20.

It is also known the closest to the invention according to the technical essence and the achieved result is glass, including SiO2, B203, AlO3, Li2O, Na2O, Az2O3.

However, the known glasses are not sufficiently resistant to crystallization, have a rather low refractive index and do not ensure that a large difference in refractive index is obtained from the axis to the periphery of the light guide.

The purpose of the invention is to develop a composition of glass that is resistant to crystallization during cooking and ion exchange processing, with a high refractive index, and allowing to obtain fibers with a large refractive index drop from the periphery axis while maintaining a small dispersion, as well as the integrity and transparency of the fiber.

This is achieved by the fact that the well-known glass, including Li20, Na2O, AO3, B203, Si02, A5203, additionally contains GeO2 at the next level, which contains the contents of the Components, wt%:

LioO. 2,3-7,1 ..

Na20 - 0.8-5.1 The indicated glasses are varied at the next switch;

The temperature of clarification 1450 ° C

Temperature free-wa850S

Annealing temperature 480 ° C

Properties of the proposed formulations of glasses are given IB table. 2

Cylindrical blanks are prepared from the obtained glasses, which are then subjected to high-temperature ion exchange — treatment in a melt based on sodium nitrate.

T a b l II c a 2

three temperatures of 550 ° C for 100 hours. Fabricated self-focusing fibers have a parabolic index of refraction over almost the entire cross section of samples with a difference in refractive index from axis to surface of An element from 0.006 (for composition 2) to 0.01 (for composition 3) , with small chromatic aberrations, while maintaining the integrity and transparency of the elements.

The proposed glass in comparison with the prototype allows to obtain a significantly larger difference in the refractive index from the axis to the surface of the element (0, ..., 010

instead of 0.003), practically does not crystallize both during development and in the process of high-temperature ion-exchange processing, and has a higher refractive index of 1.50-1.63 instead of 1.49, i.e., has improved values of those characteristics from which suc1. naturally, the head, and the quality and parameters of the self-focused, their elements.

Claims (1)

Invention Formula Glass for optical fibers, including SiO2, V20z, ABOz, Li20, NasO, A52Oz, characterized in that, in order to increase the resistance to crystallization, increase the refractive index and increase the refractive index difference from the axis to the periphery of the optical fiber, it also contains GeOs in the following ratio of components, weight. %: Si02 11.3-56.6 9.4-17.4 V20z ABOz 4.8-5.1 2.3-7.1 Li20 Na2O 0.8-5.1 A5203 0.5-0.6 15.8-65.7 GeO2