DD157836A1 - METHOD FOR PRODUCING A BROADBAND GRADIENT LIGHT GUIDE - Google Patents

Abstract

The invention relates to a method for producing a broadband gradient light guide, which can be used in the wavelength range of 0.7 to 1.5 microns. D.Ziel d.Erfindung is a method for producing a broadband optical fiber. The object of the invention is to provide for the production of a broadband light guide from the base material SiO deep 2 such a combination of dopants, which can be realized by known technologies. According to the invention, the object is achieved by doping the dopants GeO deep 2, P deep 2 O deep 5 and B deep 2 O deep 3 to the base material SiO 2 deep with the course of the doping concentration known for each dopant over the fiber radius.

Description

Method for producing a wide-band gradient light guide '.

Field of application of the invention

The invention relates to a method for producing a broadband gradient light guide, which can be used in the wavelength range from 0.7 to 1, -5 / um * -

Characteristic 'of the known technical solutions

Optical fibers are previously optimized for each © ine wavelength & _β hey for this wavelength dispersion is minimal outside this wavelength dispersion increases sharply, "To produce such parsers are · a Botand, _ζ ο Β"> BGO ™. PgO, - 'or GsO ₂ according to a function dependent on the Eadius of the light guide doped to the base material (SiOp).''The Dotiefungskonzantration over the optical fiber radius takes place at £ p ^ «5 ^un ^ ^L ^ ⁸ ^? Yes, the Pormel

0 (r) ₈ O ₀ (^ and in B ^ Oo after

0 (r) _s O ₀ C

C band concentration. '

r optical fiber radius

'Eernradius the light guide

© (Beililexponent.

Zar- production of a broadband light guide. KoJingaji and Κ® Okamoto describe a combined doping with 45 mol % PpO ₅ and 2 mol % Ge in the light nucleus and a doping above the Eadius according to a special computation program ("Minimation of Modal "Dispersion in Grades-Jndex Pibers Over a Wide Wavelength Hange" © Journal of Optical Communication 1 (1980) 1, pp. 2-4) * It is theoretically demonstrable that an optical fiber doped according to this specification showed broadband behavior the previously known technology is such a light guide but not yet manufactured, because the high doping of A3 mole% - ^ ^ ^ * ^m ^ ⁱ ^ i ^c l ^e i * ^ ^{he? s} prescribed ''

Object of the invention

The goal of. Invention is a Yerfahren for producing a broadband optical fiber

Explanation of the essence of the invention

The object of the invention is to provide such a combination of dopants for the production of a broadband light guide from the base material SiOp, which is feasible by means of known (technologies

According to the invention, the object is characterized gelöstj that the dopants GsOg ₉ Ig ^ S ^{to <3} x ®2 ^ 3 ¹ ^ * ^ ^em ^^ ^ ^{e <AEEN} dopants known profile of the doping concentration .about the light guide radius -doped? / Earth _e Preferably. the Eand concentrations · C in · mol % following

Values:

GeO ₀ -B ₃ Or ^B o0-

CMB (mm t-ί

1.95 0.84 14 _$ δ0 10.50

1.96 1.26 17.35 6.79

1.97 1, -72 20.02 3.30

Bai realization. The combinations according to the invention produce light guides with a low dispersion over a wide wavelength range. The prescribed molar concentrations can be realized technologically

Embodiments. ,

In the drawing, dispersion curves 1 to 3 of three light guides doped according to the invention are recorded and contrasted with a light guide optimized only with GaO 2 (curve 4). For curve 1, the light guide was doped according to the JYerten given in the claim for € <= 1.95 ; Curve 2 corresponds to the values for (X = 1.96 and Curve 3 those for 0 <β 1.97 * From the course of the curve, the suitability of the optical waveguides produced according to the invention for broad-band transmission ssystreme can be clearly recognized. "

Claims (1)

Brfindungsanspruch Preparation of a broad-based gradient light guide based on SiO _P with a usual doping concentration above the optical waveguide, characterized in that the dopants GeOo * Po O _c and B ₀ O _{0 are} combined « Method according to point 1, characterized in that the Eand könzentratioh G _{n of} the dopants GeOo * P ₀ Oc: and B ₂ Oo for the Profilzponeziten U. »1 _$ 95 0
14.80 and 10.50 mol%, " 3. The method according to point 1, characterized in that the concentration E of the dopants GeO ^ _t PgOc and B ₂ O ₃ for the profile exponent 0 £ 1.96
• 1.26 $ 17.35 and 6.79 mol % . Yerfahren to Ponkt 1, characterized in that the Eandkonzentration C of the dopants GeO ₂ , P ₂ Oc and B ₂ O, for the Profilxponenten Oi- 1.97 1.721 20.02 and 3.30 mol % is « Here? U 1 page drawing