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JPS58120529A - Method and apparatus for manufacturing optical fiber retaining circularly polarized light - Google Patents

Method and apparatus for manufacturing optical fiber retaining circularly polarized light

Info

Publication number
JPS58120529A
JPS58120529A JP57002614A JP261482A JPS58120529A JP S58120529 A JPS58120529 A JP S58120529A JP 57002614 A JP57002614 A JP 57002614A JP 261482 A JP261482 A JP 261482A JP S58120529 A JPS58120529 A JP S58120529A
Authority
JP
Japan
Prior art keywords
crucible
glass
optical fiber
molten
polarized light
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP57002614A
Other languages
Japanese (ja)
Inventor
Motohiro Arai
新井 基尋
Kanze Tanigawa
谷川 侃是
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NEC Corp
Original Assignee
NEC Corp
Nippon Electric Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NEC Corp, Nippon Electric Co Ltd filed Critical NEC Corp
Priority to JP57002614A priority Critical patent/JPS58120529A/en
Publication of JPS58120529A publication Critical patent/JPS58120529A/en
Pending legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B37/00Manufacture or treatment of flakes, fibres, or filaments from softened glass, minerals, or slags
    • C03B37/01Manufacture of glass fibres or filaments
    • C03B37/02Manufacture of glass fibres or filaments by drawing or extruding, e.g. direct drawing of molten glass from nozzles; Cooling fins therefor
    • C03B37/022Manufacture of glass fibres or filaments by drawing or extruding, e.g. direct drawing of molten glass from nozzles; Cooling fins therefor from molten glass in which the resultant product consists of different sorts of glass or is characterised by shape, e.g. hollow fibres, undulated fibres, fibres presenting a rough surface
    • C03B37/023Fibres composed of different sorts of glass, e.g. glass optical fibres, made by the double crucible technique
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B2203/00Fibre product details, e.g. structure, shape
    • C03B2203/30Polarisation maintaining [PM], i.e. birefringent products, e.g. with elliptical core, by use of stress rods, "PANDA" type fibres
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B2205/00Fibre drawing or extruding details
    • C03B2205/06Rotating the fibre fibre about its longitudinal axis

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Optical Fibers, Optical Fiber Cores, And Optical Fiber Bundles (AREA)

Abstract

PURPOSE:To obtain an optical fiber having high circularly polarized light retentivity by drawing molten glass from an elliptical hole while twisting the glass and by coating the resulting core glass with clad glass. CONSTITUTION:The 1st crucible 1 for molten core glass 4 is put in the 2nd crucible 2 for molten clad glass 5 so that the central axis of the elliptical hole of the crucible 1 is allowed to coincide with that of the circular hole of the crucible 2 and that the crucible 1 is rotated around the central axis of the crucible 2. Heaters 3 are placed at the outside of the crucibles 1, 2, and core glass 4 in the crucible 1 and clad glass 5 in the crucible 2 are melted with the heaters 3. The molten core glass 4 in the crucible 1 flows out of the bottom elliptical hole while being twisted around the axial line of the crucible 1 by the rotation of the crucible 1, and it is coated with the molten clad glass 5 in the crucible 2 and drawn from the bottom circular hole of the crucible 2 to form an optical fiber 6 retaining circularly polarized light.

Description

【発明の詳細な説明】 本発明は、光通信、光センナ等に用いられる偏光保存光
7アイパに関し、特に円偏光を保存する党ファイバの製
造方法およびこの製造方法を実施するのに使用する製造
装置に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a polarization-preserving optical fiber used in optical communications, optical sensors, etc., and particularly relates to a method for manufacturing a polarization-preserving optical fiber that preserves circularly polarized light, and a method for manufacturing a fiber used to carry out this manufacturing method. Regarding equipment.

偏光を保存したまま光を伝送する光ファイバは、光ヘテ
ロダイン、ファイバジャイロ、圧力センサ等に使用され
る将来性の高い光伝送路である。従来開発されてきた偏
光保存光ファイバとしては、直線偏光を保存する光ファ
イバと円偏光を保存する光ファイバとに分けられ、その
製造方法もそれぞれ異っている。直線偏、光を保存する
光ファイバの製造方法は、石英管の内壁にコアおよびク
ラッドに対応するガラス膜を堆積させ、加熱中実化して
光フアイバ母材とし、次にこの光フアイバ母材の両側面
を研磨し、その後加熱引伸して光ファイバを得る方法で
ある。この場合、石英管の内壁に堆積されたクラッドガ
ラスの軟化点温度は、石英管に用いられる石英ガラスお
よび石英管の内壁に堆積されたコアガラスの軟化点より
低く選ばれる。
Optical fibers that transmit light while preserving polarization are promising optical transmission lines for use in optical heterodynes, fiber gyros, pressure sensors, and the like. Polarization-maintaining optical fibers that have been developed in the past are divided into optical fibers that preserve linearly polarized light and optical fibers that preserve circularly polarized light, and their manufacturing methods are also different. The manufacturing method for linearly polarized, light-preserving optical fibers involves depositing glass films corresponding to the core and cladding on the inner wall of a quartz tube, heating them to form an optical fiber base material, and then forming the optical fiber base material. In this method, both sides are polished and then heated and stretched to obtain an optical fiber. In this case, the softening point temperature of the clad glass deposited on the inner wall of the quartz tube is selected to be lower than the softening point of the quartz glass used in the quartz tube and the core glass deposited on the inner wall of the quartz tube.

この内側面の研磨された元ファイバ母材を加熱引伸する
と、両mEiiが研磨された石英ガラス部分は、ML初
に表1ml帳力により、中心軸に垂直な断面内で外周形
状が円形に、内周形状が楕円形に硬化し、次にコアガラ
スが表面張力により円形状に硬化し、最後にクラッドガ
ラスが硬化するため楕円状のクラッドをもつ光ファイバ
ができる。この光ファイバでは、クラッドの断面が楕円
形であるため、クラッドのコアに対する圧力がクラッド
の断面内の長軸および短軸方向により異なり、コアに複
屈折率性が生じ、そのため光フアイバ内を伝わる基本モ
ードの一退が解け、クラッドの断面内の長軸および短軸
方向に偏光面をもつ直線偏光だけを保存する効果!もつ
。しかしながらこの従来方法による直線偏光保存の光フ
ァイバは、クラッドの断面内の長袖および短軸方向に偏
光面をもつ直線偏光しか保存せず、光ファイバどうしを
接続する際には、光ファイバのクラッド断面内の長袖お
よび短軸を各々一致させる必要がある。しかし実際に光
ファイバのクラッド断面内の長袖および短軸な合わせる
場合には、光を光ファイバに入射させ、接続点を通って
伝搬した光の偏光11.:Vt測定しながら調整すると
いう複雑な操作が必要である。
When this polished original fiber base material on the inner surface is heated and stretched, the quartz glass part polished with both mEii becomes circular in the cross section perpendicular to the central axis by applying a force of 1 ml at the beginning of ML. The inner peripheral shape is hardened into an elliptical shape, then the core glass is hardened into a circular shape due to surface tension, and finally the cladding glass is hardened, resulting in an optical fiber with an elliptical cladding. In this optical fiber, since the cross section of the cladding is elliptical, the pressure on the core of the cladding differs depending on the major and minor axis directions within the cross section of the cladding, causing birefringence in the core, which increases the propagation within the optical fiber. The effect of eliminating the regression of the fundamental mode and preserving only linearly polarized light with polarization planes in the major and minor axis directions within the cross section of the cladding! Motsu. However, optical fibers that preserve linearly polarized light using this conventional method preserve only linearly polarized light with polarization planes in the long and short axis directions within the cross section of the cladding, and when connecting optical fibers, it is necessary to It is necessary to match the long sleeve and short axes within each. However, when actually matching the long and short axes in the cladding cross section of an optical fiber, light is incident on the optical fiber, and the polarization of the light propagated through the connection point is 11. : Requires complicated operation of adjusting while measuring Vt.

円偏光を保存する光ファ°イバの製造方法は、石英管の
内壁にコアおよびクラッドに対応するガラス膜を堆積さ
せ加熱中実化した後、加熱引伸した光ファイバに捩りを
加える方法である。真円断面のコアをもつ光ファイバは
、コア断面内のどのような方向においても伝搬定数が一
定なため、円偏光を保存する効果があるが、一般に真円
断面のコアをもつ光ファイバの製造は非常に困難である
A method for manufacturing an optical fiber that preserves circularly polarized light is to deposit glass films corresponding to the core and cladding on the inner wall of a quartz tube, heat it to make it solid, and then twist the heated and stretched optical fiber. Optical fibers with a core with a perfect circular cross section have the effect of preserving circularly polarized light because the propagation constant is constant in any direction within the core cross section, but in general, manufacturing of optical fibers with a core with a perfect circular cross section is is extremely difficult.

しかし光ファイバを捩り工光ファイバのコアに捩りを与
えると、等測的に光ファイバのコアが真円のコアとして
振るまうようになることが知られている。このように円
偏光保存の光ファイバでは、コアが真円のコアとして振
るまうので光ファイバどうしの接続の際、光ファイバの
クラッド断面内の長軸および短軸を合せる必要はない。
However, it is known that when an optical fiber is twisted to give a twist to the core of the optical fiber, the core of the optical fiber behaves isometrically as a perfectly circular core. In this way, in a circularly polarized optical fiber, the core behaves as a perfectly circular core, so there is no need to align the long and short axes in the clad cross section of the optical fibers when connecting the optical fibers.

しかし、この光ファイバは破断しない程度までしか捩る
ことができないため円偏光保存の効果は小さかった。
However, since this optical fiber can only be twisted to the extent that it does not break, the effect of preserving circular polarization is small.

したがって本発明の目的は、高い円偏光保存性をもつ光
ファイバの製造方法を提供するところにある。
Therefore, an object of the present invention is to provide a method for manufacturing an optical fiber having high circular polarization preservation.

本発明の目的は、また、円偏光保存効果の高い元ファイ
バを製造する装置を提供するところにある。
Another object of the present invention is to provide an apparatus for manufacturing a source fiber with a high circular polarization preservation effect.

本発明の円偏光保存光ファイバの製造方法は、J&面に
楕円孔を有するルツボに溶融ガラスを入れ、この楕円孔
から前記溶融ガラスを捩りを加えながら引き出してコア
ガラスとする工福と、前記コアガラスの周囲を該コアガ
ラスより屈折率の低いクラッドガラスで被覆する工程と
を有するものである。
The method for manufacturing a circularly polarized light preserving optical fiber of the present invention includes a method of placing molten glass in a crucible having an elliptical hole on the J& plane, and pulling out the molten glass from the elliptical hole while applying a twist to obtain a core glass; This method includes the step of covering the core glass with a clad glass having a lower refractive index than the core glass.

以下、本発明を、図面を参照しながら、実施例について
説明する。
Embodiments of the present invention will be described below with reference to the drawings.

図面は本発明の方法を実施するのに使用する円偏光保存
光ファイバ製造装置の概略図である。この実施例では、
底部中央に楕円孔を有する第1のルツボ1と、これより
大形の同様に底部中央に円孔な有する第2のルツボ2と
を組み合わせて配置し、それぞれに溶融ガラスを注入し
てその底部の孔から引き出すように構成して1本・る、
ilJ]ち、図示の如く、溶融したコアガラス4を入れ
る第1のルツボlを、溶融したクラッドガラス5を入れ
る第2のルツボ2内に、第1のルツボlの楕円孔の中心
軸とiJ2のルツボ2の円孔の中心軸とを一致させて配
置し1、この第1のルツボ1を第2のルツボ2に対し等
その中心軸のまわりに回転させるようa;保持しである
。なお、slのルツボ1の底部楕円孔の位置は第2のル
ツボ2の円孔位置より(若干内側(上方)にある。これ
らのルツボ1,2の外側には加熱体3を配置し、この加
熱体3によって各ルツボ内のコアガラス4、クラッドガ
ラス5を溶融させる。第1のルツボ内の溶融コアガラス
4は、i[1のルツボの回転によってその軸線のまわり
に捩られながらその底部の楕円孔から流出し、その周囲
を第2のルツボ2内の溶融したクラッドガラス5で被覆
されながら該′s2のルツボ2の底部円孔から引き出さ
れて円偏光保存光ファイバ6となる。
The drawing is a schematic illustration of a circular polarization preserving optical fiber manufacturing apparatus used to carry out the method of the present invention. In this example,
A first crucible 1 having an oval hole in the center of the bottom and a second crucible 2 which is larger but also having a circular hole in the center of the bottom are arranged in combination, and molten glass is injected into each of the crucibles. One piece is constructed so that it can be pulled out from the hole.
ilJ] As shown in the figure, the first crucible l containing the molten core glass 4 is placed in the second crucible 2 containing the molten cladding glass 5, so that the central axis of the elliptical hole of the first crucible l and iJ2 The first crucible 1 is arranged such that the central axis of the circular hole of the crucible 2 coincides with the central axis of the crucible 2, and the first crucible 1 is held so as to be rotated about the central axis with respect to the second crucible 2. Note that the position of the bottom oval hole of the crucible 1 of SL is slightly inside (above) the position of the circular hole of the second crucible 2.A heating body 3 is placed outside of these crucibles 1 and 2, and this The core glass 4 and clad glass 5 in each crucible are melted by the heating element 3.The molten core glass 4 in the first crucible is twisted around its axis by the rotation of the crucible i[1, and the bottom of the crucible is twisted. It flows out from the elliptical hole, and is pulled out from the bottom circular hole of the crucible 2 of 's2 while its periphery is covered with the molten clad glass 5 in the second crucible 2 to become a circular polarization preserving optical fiber 6.

この実施例でコアガラス4の組成は、 13t3mo 1% 8i01 、4moJ %GeO
,、10moj% P2O3であり、クラッドカラス5
の組成は、90mol*g1% 。
In this example, the composition of the core glass 4 is: 13t3mo 1% 8i01, 4moJ%GeO
,,10moj% P2O3, clad crow 5
The composition is 90mol*g1%.

10ni o l % Pt Omであって、第1のル
ツボ1を毎分200回転させながら毎分1mの速度で光
ファイバ6を引き出す。こうして得られた円偏光保存光
ファイバは、従来方法の捩りを加えて製造された円偏光
保存の元ファイバの場合にその捩りが最大でも約40回
/、、であったものが、200回4と多くすることがで
き、これによってその円偏光保存性は著しく高くなる。
The optical fiber 6 is drawn out at a speed of 1 m/min while rotating the first crucible 1 at 200 revolutions/min. The circularly polarized light preserving optical fiber thus obtained was twisted 200 times/40 times, whereas the original circularly polarized light preserving fiber manufactured by adding twist in the conventional method had a maximum twist of about 40 times/... can be increased, thereby significantly increasing its circular polarization preservation.

なお、コアガラスおよびクラッドカラスの組成は上記実
施例の組成に限定されるものではなく、また前記第1の
ルツボの回転数、あるいは光ファイバの引き出し速度な
ども上述の1直に限定されない。
Note that the compositions of the core glass and cladding glass are not limited to those in the above embodiments, and the number of revolutions of the first crucible or the drawing speed of the optical fiber are not limited to the one mentioned above.

【図面の簡単な説明】[Brief explanation of the drawing]

図面は本発明の実施例に係る円偏光保存光ファイバ製造
装置の概略図である。 1・・・第1のルツボ、2・・・第2のルツボ、3・・
・加熱体、4・・・溶融コアガラス、5・・・溶融クラ
ッドカラス、 6・・−光ファイバ。 代理人 弁理士 染 川 利 吉
The drawing is a schematic diagram of a circular polarization preserving optical fiber manufacturing apparatus according to an embodiment of the present invention. 1...first crucible, 2...second crucible, 3...
- Heating body, 4... Molten core glass, 5... Melted clad glass, 6... - Optical fiber. Agent Patent Attorney Toshiyoshi Somekawa

Claims (2)

【特許請求の範囲】[Claims] (1)、溶融ガラスを楕円孔を通してかつ捩りを加えな
がら引き出しコアガラスとする工程と、前記コアガラス
の周囲に該コアガラスよりも屈折率の低いクラッドガラ
スを被覆する工程とな有することを特徴とする円偏光保
存光ファイバの製造方法。
(1) A step of drawing molten glass through an elliptical hole and twisting it to form a core glass, and a step of covering the core glass with clad glass having a lower refractive index than the core glass. A method for manufacturing a circular polarization preserving optical fiber.
(2)、底部に楕円孔を有し溶融コアガラスを入れるs
lのルツボと、底部に円孔な有し溶融クラッドガラスを
入れる第2のルツボとを有し、前記第1のルツボは、そ
の楕円孔の中心軸が前記第2のルツボの円孔の中心軸と
一致するように該第2のルツボ内に配置されかつ該第2
のルツボに対してその中心軸のまわりに回転できるよう
に保持されることを特徴とする円偏光保存光ファイバの
製造装置。
(2) Has an oval hole at the bottom and inserts the molten core glass.
1 crucible, and a second crucible having a circular hole at the bottom and containing the molten clad glass, the first crucible having an elliptical hole whose center axis is the center of the second crucible's circular hole. positioned within the second crucible so as to coincide with the axis and the second
An apparatus for manufacturing a circularly polarized light preserving optical fiber, characterized in that the optical fiber is held in a crucible so as to be rotatable around its central axis.
JP57002614A 1982-01-11 1982-01-11 Method and apparatus for manufacturing optical fiber retaining circularly polarized light Pending JPS58120529A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP57002614A JPS58120529A (en) 1982-01-11 1982-01-11 Method and apparatus for manufacturing optical fiber retaining circularly polarized light

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP57002614A JPS58120529A (en) 1982-01-11 1982-01-11 Method and apparatus for manufacturing optical fiber retaining circularly polarized light

Publications (1)

Publication Number Publication Date
JPS58120529A true JPS58120529A (en) 1983-07-18

Family

ID=11534269

Family Applications (1)

Application Number Title Priority Date Filing Date
JP57002614A Pending JPS58120529A (en) 1982-01-11 1982-01-11 Method and apparatus for manufacturing optical fiber retaining circularly polarized light

Country Status (1)

Country Link
JP (1) JPS58120529A (en)

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