Method of manufacturing polarization maintaining optical fiber

Abstract

The invention relates to a production method for polarization maintaining fibers, comprising an optical fiber perform rod with a fiber core and a clad, wherein the clad at two sides of the fiber core of the optical fiber perform rod are symmetrically processed with two longitudinal penetration holes parallel with the fiber core; two stress rods are respectively inserted into the two holes on the optical fiber perform rod to form a combination optical fiber perform rod; performing the combination optical fiber on an optical fiber drawing tower to draw the fiber to obtain a panda-type polarization maintaining fiber. The production method is characterized in that the upper and the lower circumferences of parallel to the center connecting line of the two holes of the optical fiber perform rodand the insertion stress rod are removed with part of the clad in a transition curve type, to make the radial section of the optical fiber perform rod in an oval or ellipse form. The invention quantifies the correction area and size of the perform rod, therefore, under the surface tension force, the combination perform rod can be instantly fused and reduced into a polarization maintaining fiber with good surface circularity to confirm the clad non circularity of produced polarization maintaining fibers under 0.5%.

Description

technical field [0001] The invention relates to a method for manufacturing a polarization-maintaining optical fiber. In particular, it relates to a method for manufacturing panda-type polarization-maintaining optical fiber. The application of the manufacturing method can reduce the out-of-roundness of the cladding of the panda-type polarization-maintaining optical fiber, and improve the mechanical strength and production efficiency of the polarization-maintaining optical fiber. The invention can be used to manufacture polarization-maintaining optical fibers and single-mode single-polarization optical fibers working at various wavelengths. Background technique [0002] Polarization maintaining fiber is a kind of special fiber. Polarization maintaining fiber, that is, polarization maintaining fiber, is a type of fiber that maintains the linear polarization direction of the transmitted light. Polarization-maintaining optical fiber can be applied in many fields, such as multi...

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Problems solved by technology

[0008] Panda-shaped polarization-maintaining optical fiber is manufactured using the perforated composite rod process. In order to ensure that the stress rod is smoothly inserted into the hole of the perforated preform, the diameter of the hole needs to be larger than the outer diameter of the stress rod. Due to the lack of part of the glass material between the stress rod and the hole , will lead to the deterioration of the cladding roundness of the produced polarization maintaining fiber, which will affect the application of the fiber

[0009] Using the process scheme proposed by the patent ZL03805091.9, there are always some problems in actual production: first, due to the use of the method of shaping the outer surface of the preform into two or more planes, the gap between the planes and the planes Ridges appear between the arc surface and the existence of such ridges seriously affect the mechanical properties of the optical fiber, making the combined preform extremely prone to fiber breakage during the wire drawing process and the subsequent screening process of the optical fiber; second, the patent ZL03805091 In the process plan of .9, the main process of adjusting the roundness of the optical fiber cladding is the automatic adjustment when the preform shrinks to a diameter of 3mm. In order to complete this process, low-speed and low-tension drawing conditions must be used. This drawing condition is in the actual In production, the production efficiency of the optical fiber is greatly reduced, and the strength of the polarization-maintaining optical fiber is also greatly affected, making it difficult for the optical fiber to pass the 1% screening; third, using the above process, the produced polarization-maintaining optical fiber The out-of-roundness of the cladding can only be controlled at a level of 1%, which is not enough for the application of some devices, and the production of devices requires that the out-of-roundness of the cladding of the optical fiber reaches a level of 0.5% or less

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