KR100585559B1 - Apparatus for forming bragg grating - Google Patents

Abstract

According to an aspect of the present invention, there is provided a Bragg grating forming apparatus comprising: a light source for irradiating light; A diffraction unit diffracting light irradiated by the light source into 0th order and ± 1th order; A reflection unit for reflecting light diffracted by ± 1 order by the diffraction unit; And a first fixed mirror and a second fixed mirror fixed to reflect the light reflected by the reflecting unit back to the optical fiber side. According to this, it is possible to easily adjust the angle of incidence of the light finally incident on the object as one operation of rotating the screw bar. In addition, since it is not necessary to install each mirror installed in the Bragg grating forming apparatus as in the related art, it is possible to reduce the manufacturing cost of the Bragg grating forming apparatus.

Grating, Fiber Optic, Bragg Grating, Fiber Grating, Interference, Phase Mask

Description

Bragg Grating Forming Device {Apparatus for forming bragg grating}

1 is a view for explaining a schematic configuration of a device for forming a conventional Bragg grating,

2 is a view schematically showing a Bragg grating forming apparatus according to a preferred embodiment of the present invention,

3 is a perspective view schematically showing the angle adjustment unit shown in FIG.

4A and 4B are views for explaining the operation of the Bragg grating forming apparatus shown in FIG.

<Description of Symbols for Main Parts of Drawings>

100: Bragg grating forming apparatus 101: laser light source

103: phase mask 104: first fixed mirror

105: second fixed mirror 106: optical fiber

110: reflection unit 111: first reflection mirror

112: second reflection mirror 113: hinge means

117: support frame 120: angle adjustment unit

121: First frame 121a: First female thread

123: second frame 123a: second female thread

125: screw bar 125a: first male thread

125b: 2nd external thread

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for forming a Bragg grating, and more particularly, to an irradiation angle of light irradiated from a light source to form a Bragg grating on an optical fiber, a planar waveguide, or a polymer waveguide. It relates to a Bragg grating forming apparatus that can easily adjust the.

In general, a fiber grating, in which a Bragg grating is formed on an optical fiber, is an optical fiber device that periodically or non-periodically changes the refractive index of a core in the optical fiber to reflect light of a specific wavelength or act as a transmission loss. to be. Such optical fiber gratings include optical communications such as optical-added multiplexers (OADM or WADM), dispersion compensators, wavelength selective reflection mirrors, wavelength cancellation filters, specific wavelength transmission filters, fiber lasers, mode converters, and gain flattening filters for erbium-added fiber amplifiers. It is widely used in the field.

1 is a schematic diagram for explaining the principle of a conventional Bragg grating forming apparatus for forming such a Bragg grating.

Referring to this, the conventional Bragg grating forming apparatus 10 includes a light source 1 for irradiating light, a beam splitter 3 for converting a traveling path of light irradiated from the light source 1, and a beam splitter 3. It is composed of the first and second mirrors 5, 7 for reflecting the light converted by the optical path into the optical fiber (9).

In general, a laser light source is used as the light source 1, and the ultraviolet light is emitted by adjusting a wavelength of light emitted from the laser light source 1.

Ultraviolet ray irradiated from the laser light source 1 is converted into a path of the target light reflected by the beam splitter 3 and the transmitted reference light. The object light whose traveling path of the ultraviolet rays is converted is reflected back to the optical fiber 9 side by the second mirror 7, and the reference light is reflected back to the optical fiber side by the first mirror 5.

In this way, an interference fringe is formed on the optical fiber 9 by reference light and target light reflected by the first mirror 5 and the second mirror 7, respectively. The portion where the bright interference fringe is formed has a high refractive index because ultraviolet rays are absorbed by the optical fiber core, and the dark portion does not change because the absorption does not occur.

Due to this principle, Bragg gratings having a periodically changed refractive index are formed in the optical fiber core, and are used in various optical communication fields as described above.

In order to change the position of the object 9 forming the Bragg grating such as an optical fiber or to control the spacing of the grating, the light incident angle to the object 9 must be adjusted. To this end, the conventional Bragg grating forming apparatus 10 adjusts the reflection angle of light by rotating the first mirror 5 and the second mirror 7.

However, in order to adjust the reflection angle of the light, the incidence angle of the light incident on each of the first and second mirrors 5 and 7 and the reflection angle of the light reflected from the first and second mirrors 5 and 7 are calculated. The first mirror 5 and the second mirror 7 must be rotated accordingly.

Therefore, whenever the position of an object forming a Bragg grating such as an optical fiber is changed or the spacing of the grating is adjusted, the angle of incidence and the angle of reflection must be calculated and the respective mirrors 5 and 7 must be rotated, thereby making it possible to light the object 9. There is a problem that the angle of incidence cannot be easily adjusted.

The present invention has been made in view of the above, and provides a Bragg grating forming apparatus that can easily adjust the incident angle of light incident on the object when adjusting the position of the Bragg grating is formed or the spacing of the Bragg grating. Its purpose is to.

Bragg grating forming apparatus according to a preferred embodiment of the present invention, a device for forming a grating on the optical fiber, and a light source for irradiating light; A diffraction unit diffracting the light radiated by the light source by ± 1 order; A reflection unit for reflecting light diffracted in 0th order and ± 1th order by the diffraction unit; And a first fixed mirror and a second fixed mirror fixed to reflect the light reflected by the reflection unit back to the optical fiber side.

The reflection unit may include: a first reflection mirror that reflects light to the first fixed mirror; A second reflection mirror for reflecting light to the second fixed mirror; Hinge means for hinge coupling the first reflection mirror and the second reflection mirror from above; And a frame formed under the first reflection mirror and the second reflection mirror, respectively, to adjust hinge hinge angles of the first reflection mirror and the second reflection mirror, wherein first and second female threads are formed respectively. An angle adjustment unit comprising a screw bar, wherein the first and second male threads are formed to be screwed to the first and second female threads, respectively, wherein the first and second male threads are opposite in direction of the threads; The thread direction of the first and second female threads is formed in a direction in which the first male thread and the second male thread are screwed.

In addition, the diffraction unit according to a preferred embodiment of the present invention is a phase mask.

In addition, the rotation of the screw bar, it is preferable to further include a support frame for supporting the screw bar does not move in the axial direction.

Further, the light diffracted in the 0th order by the diffraction unit is preferably blocked by the hinge means.

The above objects and other advantages of the present invention will become more apparent by describing the preferred embodiment of the present invention in detail with reference to the accompanying drawings. For reference, in describing the embodiments of the present invention, the same reference numerals refer to the same parts as those in the related art.

2 is a view schematically showing a Bragg grating forming apparatus according to an embodiment of the present invention, Figure 3 is a perspective view showing an angle adjustment unit of the Bragg grating forming apparatus shown in Figure 2, Figures 4a and 4b is FIG. A diagram for explaining the operation of the Bragg grating forming apparatus shown in FIG.

2 to 3, the Bragg grating forming apparatus 100 according to a preferred embodiment of the present invention includes a light source 101, a diffraction unit 103, a reflection unit 110, and a first fixed mirror 104. And a second fixed mirror 105.

The light source 101 generally uses a laser light source, and selects a wavelength of light emitted from the laser light source to irradiate ultraviolet rays to form a Bragg grating on an object 106 such as an optical fiber.

The diffraction unit 103 diffracts the ultraviolet light emitted from the light source 101 in the 0th order and the ± 1th order so that it is incident on the reflection unit 110 described later. According to a preferred embodiment of the present invention, such a diffraction unit 103 uses a phase mask.

The phase mask 103 is preferably such that the zero-order diffraction efficiency is very small so that the phase mask 103 is not affected by the final formation of the Bragg grating by the zero-order diffraction light. Therefore, the zero-order diffraction efficiency should be reduced by adjusting the phase difference between the light passing through the valleys and the floor of the phase mask 103.

The reflection unit 110 changes the path of the light diffracted in the ± 1 order by the phase mask 103, and includes the first reflection mirror 111, the second reflection mirror 112, the hinge means 113, and the angle adjustment unit. 120.

The first reflection mirror 111 reflects such that the path of light diffracted in the +1 order is changed, and the second reflection mirror 112 reflects so that the path of light diffracted in the -1 order is changed.

On the other hand, the hinge means 113 is installed above the first reflection mirror 111 and the second reflection mirror 112 to rotatably couple the respective reflection mirrors 111 and 112. By adjusting the hinge coupling angle by the hinge means 113, when the position of the object 106 is changed, it is possible to adjust the angle of incidence to the object 106, and also to adjust the spacing of the Bragg grating.

In addition, even if the zero-order diffraction efficiency is reduced by adjusting the phase difference of the light passing through the valleys and the valleys of the phase mask 103, the final Bragg grating may be formed. Therefore, the hinge means 113 is preferably installed so as to block the zero diffracted light from reaching the first reflection mirror 111 and the second reflection mirror 112.

As described above, the angle adjusting unit 120 adjusts hinge coupling angles of the first reflective mirror 111 and the second reflective mirror 112, and includes the first and second frames 121 and 123 and a screw. Bar 125.

The first and second frames 121 and 123 are formed under the first reflecting mirror 111 and the second reflecting mirror 112, respectively, and the first frame 121 has the first reflecting mirror 111. The first female screw 121a penetrates in the width direction, and the second female screw 123a penetrates in the width direction of the second reflection mirror 112 in the second frame 123.

The screw bar 125 has first and second male threads 125a and 125b which are screwed to the first female thread 121a and the second female thread 123a on the outer circumferential surface thereof, and the first and second male threads are formed. 125a and 125b are formed in opposite directions of the threads thereof. Here, the thread direction of the first female screw 121a is formed in the direction in which the screw is fastened with the first male thread 125a, and the thread direction of the second female thread 123a is formed in the direction in which the screw is fastened with the second male screw 125b. do.

In addition, when the screw bar 125 is rotated, the support bar 117 is fixed to support the screw bar 125 so that only the first and second frames 121 and 123 are movable while the screw bar 125 is fixed. It is preferable to include.

The operation of the angle adjustment unit 120 configured as described above will be described with reference to FIGS. 3 to 4B.

When the screw bar 125 is rotated, the first and second male threads 125a and 125b formed on the outer circumferential surface thereof rotate, and the first and second female screws 121a and 123a screwed thereto are The first and second frames 121 and 123 are moved. At this time, since the directions of the threads of the first and second male threads 125a and 125b are different, the first frame 121 and the second frame 123 are interlocked so as to move outward or inward of the screw bar 125. do.

The hinge coupling angles of the first reflection mirror 111 and the second reflection mirror 112 are adjusted by the first frame 121 and the second frame 123 moved as described above.

As shown in FIG. 4A, when the screw bar is rotated, the first frame 121 moves to the left and the second frame 123 moves to the right, thereby increasing the hinge coupling angle. In addition, as shown in FIG. 4B, when the screw bar rotates in the opposite direction, the first frame 121 moves to the right side and the second frame 123 moves to the left side, thereby reducing the hinge coupling angle.

As such, the hinge coupling angles of the first reflection mirror 111 and the second reflection mirror 112 are adjusted by the angle adjustment unit 120, so that the distance between the Bragg gratings can be easily adjusted and the position of the object 106 is also adjusted. Even if the is changed, it is possible to easily adjust the incident angle of the light incident to the object 106 finally.

On the other hand, the first fixed mirror 111 and the second fixed mirror 112 is fixed to the frame of the Bragg grating forming apparatus (not shown). Light reflected from the first reflection mirror 111 is reflected back by the first fixed mirror 104, and light reflected from the second reflection mirror 112 is reflected back by the second fixed mirror 105, Finally, the Bragg grating is formed on the object 106.

The first fixed mirror 104 and the second fixed mirror 105 do not need to be installed to rotate unlike the mirror of the conventional Bragg grating forming apparatus can reduce the overall manufacturing cost.

Thus, according to the present invention, it is possible to easily adjust the angle of incidence of the light finally incident on the object as a single operation of rotating the screw bar.

In addition, since it is not necessary to install each mirror installed in the Bragg grating forming apparatus as in the related art, it is possible to reduce the manufacturing cost of the Bragg grating forming apparatus.

While the invention has been shown and described in connection with preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (5)

An apparatus for forming a Bragg grating on an object, A light source for irradiating light; A diffraction unit diffracting light irradiated by the light source into 0th order and ± 1th order; A reflection unit for reflecting light diffracted by ± 1 order by the diffraction unit; And And a first fixed mirror and a second fixed mirror fixed to reflect the light reflected by the reflective unit back to the object side. The method of claim 1, wherein the reflection unit, A first reflection mirror reflecting light to the first fixed mirror; A second reflective mirror for reflecting light to the second fixed mirror; Hinge means for hinge coupling the first reflection mirror and the second reflection mirror from above; And A frame formed under the first reflection mirror and the second reflection mirror to respectively adjust the hinge coupling angles of the first reflection mirror and the second reflection mirror, the first and second female threads being formed respectively; An angle adjustment unit comprising a screw bar, wherein the first and second male threads are formed to be screwed to the first and second female threads, respectively, Bragg grating forming apparatus, characterized in that the direction of the screw thread of the first and second male thread is opposite, the thread direction of the first and second female thread is formed in the direction of screwing the first male screw and the second male screw. . The method of claim 2, wherein the diffraction unit, Bragg grating forming apparatus, characterized in that it is a phase mask (Phase Mask). The method of claim 3, Bragg grating forming apparatus, characterized in that it comprises a support frame for supporting the screw bar not to move in the axial direction when the screw bar is rotated. delete

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