CN104345387A - Cladding power stripper for double-clad optical fibers - Google Patents

Abstract

The invention provides a cladding power stripper for double-clad optical fibers. The cladding power stripper comprises the double-clad optical fibers, a doped absorption layer, a heat conduction layer, a heat sink and a water cooling channel, wherein an external cladding with low refractive index is removed from the double-clad optical fibers; an optical absorption layer doped with carbon powder or aluminum oxide is used as an optical fiber external cladding; the refractive index of a substrate material of the optical absorption layer is greater than or equal to that of an internal cladding of the optical fibers; after the doped absorption layer absorbs leaked light and converts the leaked light into heat, the heat is conducted to the inside of the heat sink by the heat conduction layer and then is taken away by cold water circulating in the water cooling channel. According to the cladding power stripper provided by the invention, residual light in the double cladding is stripped along the optical fibers and then is directly converted into heat in the doped absorption layer; on the basis that an optical fiber structure is not damaged, the power stripping capability of the cladding power stripper is greatly improved.

Description

A kind of double clad fiber cladding power stripper

Technical field

The invention belongs to high power optical fibre laser technical field, be specifically related to a kind of double clad fiber cladding power stripper, for high-capacity optical fiber laser.

Background technology

The advantages such as the beam quality that high-capacity optical fiber laser and amplifier have is excellent, heat dissipation characteristics is good, be easy to miniaturization, operating cost is cheap, making it replace conventional high power laser instrument gradually becomes the new selection of the applications such as industrial processes one.Exporting to realize high power laser light, all adopting double-cladding doped fiber as Active Optical Fiber in Fiber laser and amplifier, and adopting cladding pumping mode that pumping laser is injected Active Optical Fiber.But the existence of spiral light causes the pump light in optical fiber can not be doped fibre core absorption completely and form residual light in double clad fiber cladding.If residual light is directly exported by optical fiber laser output end, extra heat deposition can be brought to equipment such as the beam shapings of optical fiber laser output end, even can the quality of deteriorated output facula.Therefore, the residual light in fibre cladding is divested very necessary at optical fiber laser output end.Stripping mode conventional at present has two kinds, the first is exactly to optical fiber coating high index of refraction ultraviolet glue, residual light in optical fiber inner cladding can leak in high folding coat by this method, but coat absorbs uneven along optical fiber to the absorption of light, make a large amount of leak light in the regional area generation light-thermal transition of height folding coat, cause the height of organic compound folding coat overheated and produce abrupt oxidization, causing device performance severe weakness.Another kind method is exactly by optical fiber inner cladding surface roughening, the residual light in inner cladding is made directly to produce leakage on its surface, this method can peel off the residual light in inner cladding effectively, but in manufacturing process, be difficult to the roughness of control surface, and easily causes damage to optical fiber structure.

Summary of the invention

The object of the present invention is to provide a kind of power stripper leaked for fibre cladding light.Residual light is peeled off along doubly clad optical fiber by power stripper of the present invention, mix light absorbing medium and can realize doping absorption layer being uniformly distributed along optical fiber heat deposition by regulating along the doping content of optical fiber, in the equal maximum temperature peeling off optical power down low-power stripper, thus reduce the damage risk of covering power stripper, to improve its power stripping ability.

Realizing technical scheme of the present invention is:

Double clad fiber cladding power stripper of the present invention, is characterized in, described power stripper comprises doubly clad optical fiber, doping absorption layer, heat conduction layer, heat sink, water-cooling channel.Its annexation is, described power stripper profile is cylindric, is provided with the doubly clad optical fiber of a removal surrounding layer in columned axial centre, and the axial periphery of described doubly clad optical fiber is disposed with doping absorption layer, heat conduction layer, heat sink.Described heat sink on be provided with axial U-type groove; Described doping absorption layer, as the surrounding layer as doubly clad optical fiber, is converted to heat after the light absorption leaked out by doubly clad optical fiber.Described heat conduction layer is closely wrapped in outside doping absorption layer, and heat sinkly to fit tightly with described.Described heat sink in be provided with water-cooling channel vertically.

Described water-cooling channel distributes at heat sink cross-sectional uniformity.

The light absorbing medium adulterated in the base material of described doping absorption layer is carbon dust or aluminium oxide.

In described doping absorption layer, the doping of carbon dust or aluminium oxide is uniformly distributed along optical fiber.

In described doping absorption layer, the doping of carbon dust or aluminium oxide replaces with and increases progressively distribution along optical fiber.

The refractive index of the base material of described doping absorption layer is more than or equal to the refractive index of optical fiber inner cladding.

Described heat conduction layer is carbon dust.

In the present invention, preferably the host material of doping absorption layer is melt temperature higher than the crystalline material of 150 DEG C.Preferred heat sink material is brass or aluminium.Preferred water-cooling channel directly punches and forms in thermosphere.

The present invention can by the residual light in covering along optic fibre guide to doping absorption layer in and be converted into heat, make leak light be doped absorption layer uniform pickup.Contribute to hot being uniformly distributed in covering power stripper like this, and overcome traditional covering power stripper along the uneven heat deposition causing regional area concentrations of fiber distribution.Do not destroying on the basis of optical fiber structure, the power greatly improving covering power stripper divests ability.Because the heat deposition in covering power stripper of the present invention is evenly distributed, and heat deposition region becomes large, thus can be used in more high-power fiber ring laser system.

Accompanying drawing explanation

Fig. 1 is double clad fiber cladding power stripper diagrammatic cross-section of the present invention;

Fig. 2 is double clad fiber cladding power stripper cross sectional representation of the present invention;

In figure, 1. doubly clad optical fiber 2. adulterates heat sink 5. water-cooling channels of absorption layer 3. heat conduction layer 4..

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described

Embodiment 1

Fig. 1 is double clad fiber cladding power stripper diagrammatic cross-section of the present invention, and Fig. 2 is double clad fiber cladding power stripper cross sectional representation of the present invention.In Fig. 1 ~ Fig. 2, double clad fiber cladding power stripper of the present invention, comprises doubly clad optical fiber 1, doping absorption layer 2, heat conduction layer 3, heat sink 4, water-cooling channel 5; Its annexation is, described power stripper profile is cylindric, is provided with the doubly clad optical fiber 1 of a removal surrounding layer in columned axial centre, and the axial periphery of described doubly clad optical fiber 1 is disposed with doping absorption layer 2, heat conduction layer 3, heat sink 4; Described thermosphere 4 is provided with axial U-type groove; Described doping absorption layer 2, as the surrounding layer as doubly clad optical fiber 1, is converted to heat after the light absorption that doubly clad optical fiber 1 is leaked out; Described heat conduction layer 3 is closely wrapped in outside doping absorption layer 2, and fits tightly with described heat sink 4; Water-cooling channel 5 is provided with vertically in described heat sink 4.

The refractive index of the base material of described doping absorption layer 2 is more than or equal to the refractive index of optical fiber inner cladding.Described heat conduction layer 3 is carbon dust.Described water-cooling channel is in heat sink 4 cross-sectional uniformity distributions.

In the present embodiment, water-cooling channel is provided with four altogether, and water-cooling channel 5 is one of them.The light absorbing medium adulterated in the base material of described doping absorption layer 2 is carbon dust.In described doping absorption layer 2, the doping of carbon dust is uniformly distributed along optical fiber.

Making programme of the present invention is: doubly clad optical fiber 1 is removed surrounding layer, carries out cleaning stand-by with high absolute alcohol to the doubly clad optical fiber 1 removing coating.Refractive index is more than or equal to doubly clad optical fiber 1 inner cladding refractive index and the crystal that temperature of fusion is 200 DEG C be placed in high temperature furnace heat up fusing.When after crystal melting, carbon dust to be added and uniform stirring, the crystal of the molten condition after stirring evenly is applied the doubly clad optical fiber 1 after clean, forms doping absorption layer 2.After cooling, the doubly clad optical fiber 1 being enclosed with doping absorption layer 2 is placed in the U-type groove of heat sink 4, and fills carbon dust formation heat conduction layer 3.The cold water passing into circulation in water-cooling channel 5, by the heat absorption in heat sink 4, makes the temperature of covering power stripper remain on reduced levels.

Embodiment 2

The present embodiment is identical with the structure of embodiment 1, and difference is, the light absorbing medium adulterated in the base material of described doping absorption layer is carbon dust.In described doping absorption layer, the doping of carbon dust increases progressively distribution along optical fiber.

Embodiment 3

The present embodiment is identical with the structure of embodiment 1, and difference is, the light absorbing medium adulterated in the base material of described doping absorption layer is aluminium oxide.In described doping absorption layer, the doping of aluminium oxide is uniformly distributed along optical fiber.

Embodiment 4

The present embodiment is identical with the structure of embodiment 1, and difference is, the light absorbing medium adulterated in the base material of described doping absorption layer is aluminium oxide.In described doping absorption layer, the doping of aluminium oxide increases progressively distribution along optical fiber.

Above one provided by the present invention is described in detail for double clad fiber cladding power stripper and its implementation, apply specific embodiment herein to set forth principle of the present invention and embodiment, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications.To sum up, this description should not be construed as limitation of the present invention.

Claims (7)

1. a double clad fiber cladding power stripper, is characterized in that, described power stripper comprises doubly clad optical fiber (1), doping absorption layer (2), heat conduction layer (3), heat sink (4), water-cooling channel (5); Its annexation is, described power stripper profile is cylindric, be provided with the doubly clad optical fiber (1) of a removal surrounding layer in columned axial centre, the axial periphery of described doubly clad optical fiber (1) is disposed with doping absorption layer (2), heat conduction layer (3), heat sink (4); Described heat sink (4) are provided with axial U-type groove; Described doping absorption layer (2) is as the surrounding layer as doubly clad optical fiber (1); Described heat conduction layer (3) is wrapped in doping absorption layer (2) outward, and fits tightly with described heat sink (4); Water-cooling channel (5) is provided with vertically in described heat sink (4).

2. covering power stripper according to claim 1, is characterized in that, described water-cooling channel (5) distributes at heat sink (4) cross-sectional uniformity.

3. covering power stripper according to claim 1, is characterized in that, the light absorbing medium adulterated in the base material of described doping absorption layer (2) is carbon dust or aluminium oxide.

4. the covering power stripper according to claim 1 or 3, is characterized in that, in described doping absorption layer (2), the doping of carbon dust or aluminium oxide is uniformly distributed along optical fiber.

5. the covering power stripper according to claim 1 or 3, is characterized in that, in described doping absorption layer (2), the doping of carbon dust or aluminium oxide replaces with and increases progressively distribution along optical fiber.

6. the covering power stripper according to claim 1 or 3, is characterized in that, the refractive index of the base material of described doping absorption layer (2) is more than or equal to the refractive index of optical fiber inner cladding.

7. covering power stripper according to claim 1, is characterized in that, described heat conduction layer (3) is carbon dust.