RU2004129371A - METHOD FOR JOINING AN INTEGRAL-OPTICAL SCHEME FOR A FIBER-OPTICAL GYROSCOPE WITH ONE-MODE FILTERS - Google Patents

Claims (2)

1. The method of docking channel waveguides of the integrated optical circuit of a fiber-optic gyroscope with single-mode fibers, which consists in combining a pair of channel waveguides of the circuit having bevel angles

, where n ₁ and n ₂ are the refractive indices of the materials of the channel fiber and the substrate, respectively, with two single-mode fibers having the bevels of the ends of the light guides at an angle θ ₁ = (n ₂ / n _c ) θ ₀ , where n _c is the refractive index of the material of the fiber sheath , and then connecting them to each other using optical glue, characterized in that for joining with a pair of channel waveguides of the integrated optical circuit, a two-core fiber with a selected distance between the cores and their numerical apertures is used, which canalizes through the light guide conductive strands, at least one state of polarization of optical radiation, the distance between the light-guiding cores d> h, where h - the distance between the channel waveguides of integrated optical circuits on the two-wire portion of the optical fiber operate biconical constriction length L _n ≤10 mm, whereupon the fiber is cleaved in the neck region of the biconical constriction, then a portion of the two-core fiber is inserted into the inner hole of the quartz capillary with an external diameter of D _K and fixed with glue with a selected refractive index lining, then polish the end face of the two-core fiber along with the quartz capillary at an angle θ ₁ at the waist of the two-core fiber, in which the distance between the optical fibers d '= h, then the end face of the integrated optical circuit with a pair of channel waveguides is ground together with glued on top and bottom of the substrate with two quartz plates, the thickness of which is selected so that the central axes of the channel waveguides are at the same distance from the edges of the upper and lower end plates, moreover, the total thickness H of the substrate together with the thickness of the quartz plates is selected so that H≥D _K , and after combining and gluing a pair of channel waveguides of the integrated optical circuit with a pair of light guide wires of a two-core fiber, they additionally fix their relative spatial position by welding a quartz capillary with a two-core optical fiber glued into it at the points of contact with quartz plates glued to the substrate of the integrated optical circuit. 2. The method of docking channel waveguides of the integrated optical circuit of a fiber-optic gyroscope with single-mode fibers, which consists in combining a pair of channel waveguides of the circuit with bevel angles

, where n ₁ and n ₂ are the refractive indices of the materials of the channel fiber and the substrate, respectively, with two single-mode fibers having the bevels of the ends of the light guides at an angle θ ₁ = (n ₂ / n _c ) θ ₀ , where n _c is the refractive index of the material of the fiber sheath , and then connecting them to each other using optical glue, characterized in that they produce a capillary with a two-core optical fiber glued into it for joining with a pair of channel waveguides of the integrated optical circuit, using two pieces of single-mode optical fibers with D-о different cross-sectional profiles, for which the optical fibers combine with each other with their flat surfaces, and then place them inside the quartz capillary with an inner hole diameter equal to the maximum cross-sectional size of two optical fibers folded together, and the distance between the light guide wires d 'equal to the distance between the channel waveguides h provide by etching the outer surface of the optical fibers before combining them.