The present disclosure discloses a fiber laser, including a laser seed source, an amplifying optical path, an output optical isolator and an optical fiber cylinder; wherein, the amplifying optical path is connected to the laser seed source and the output optical isolator, the laser seed source is us
The present disclosure discloses a fiber laser, including a laser seed source, an amplifying optical path, an output optical isolator and an optical fiber cylinder; wherein, the amplifying optical path is connected to the laser seed source and the output optical isolator, the laser seed source is used to output optical source, the amplifying optical path includes a first stage amplifying optical path and a second stage amplifying optical path, the first stage amplifying optical path is connected to the laser seed source and the second stage amplifying optical path respectively, the output optical source is output via the output optical isolator after two-stage amplifying; the second stage amplifying optical path comprises a multi-mode active optical fiber; the multi-mode active optical fiber is coiled on the optical fiber cylinder. By the disposing way above, the present disclosure may improve output optical beam quality of the fiber laser.
대표청구항▼
1. A fiber laser comprising a laser seed source, an amplifying optical path, an output optical isolator and an optical fiber cylinder, wherein, the amplifying optical path is connected to the laser seed source and the output optical isolator, the laser seed source is used to output optical source, t
1. A fiber laser comprising a laser seed source, an amplifying optical path, an output optical isolator and an optical fiber cylinder, wherein, the amplifying optical path is connected to the laser seed source and the output optical isolator, the laser seed source is used to output optical source, the amplifying optical path includes a first stage amplifying optical path and a second stage amplifying optical path, the first stage amplifying optical path is connected to the laser seed source and the second stage amplifying optical path respectively, the output optical source is output via the output optical isolator after two-stage amplifying;the second stage amplifying optical path comprises a multi-mode active optical fiber;the multi-mode active optical fiber is coiled on the optical fiber cylinder;wherein the fiber laser further comprises an upper casing and a lower casing,the laser seed source and the first stage amplifying optical path are fixed to the upper casing, the second stage amplifying optical path, the output optical isolator and the optical fiber cylinder are fixed to the lower casing, the upper casing is fixed to the lower casing. 2. The fiber laser according to claim 1, wherein, the optical fiber cylinder further comprisesa first cylinder, anda plurality of second cylinders,wherein the first cylinder is larger than the second cylinders. 3. The fiber laser according to claim 2, wherein a first groove is disposed at the outer surface of the first cylinder, the multi-mode active optical fiber is coiled along the first groove spirally. 4. The fiber laser according to claim 2, wherein the second cylinders are disposed in a circumference, the multi-mode active optical fiber is coiled on the second cylinders in a wave shape. 5. The fiber laser according to claim 4, wherein a second groove is disposed at the second cylinder, when the multi-mode active optical fiber is coiled on the second cylinder, the multi-mode active optical fiber is embedded in the second groove. 6. The fiber laser according to claim 2, wherein the first cylinder is disposed in a circle formed by the second cylinders, the multi-mode active optical fiber is coiled on the first cylinder after it is coiled on the second cylinders in the wave shape, and an output end of the multi-mode active optical fiber is located at the top of the first cylinder. 7. The fiber laser according to claim 1, wherein, the first stage amplifying optical path comprises a first stage pump optical fiber, a single-mode active optical fiber and a first stage passive optical fiber, the fiber laser further comprises an optical fiber closure and a heat dissipating glue;the optical fiber closure and the heat dissipating glue are located in the upper casing, the single-mode active optical fiber is fixed in the optical fiber closure, the heat dissipating glue is coated on the single-mode active optical fiber;the first stage pump optical fiber and the first stage passive optical fiber are located in the upper casing, and the first stage pump optical fiber is around the optical fiber closure, the first stage passive optical fiber is separated from the first stage pump optical fiber by the optical fiber closure. 8. The fiber laser according to claim 1, wherein, the first stage amplifying optical path comprises a first stage pump source, a first stage combiner, a first stage amplifier and a first stage optical isolator;the laser seed source is connected to the first stage combiner via the single-mode active optical fiber, the first stage pump source is connected to the first stage combiner via the first stage pump optical fiber, the first stage amplifier is connected to the first stage combiner and the first stage optical isolator respectively via the first stage passive optical fiber, the first stage optical isolator is connected to the second stage amplifying optical path. 9. The fiber laser according to claim 1, wherein the second stage amplifying optical path further comprises a second stage pump optical fiber, a second stage pump source, a second stage combiner, a second stage amplifier and a second stage passive optical fiber;the second stage combiner is connected to the first stage optical isolator via the multi-mode active optical fiber, the second stage pump source is connected to the second stage combiner via the second stage pump optical fiber, the second stage amplifier is connected to the second stage combiner and the output optical isolator respectively via the second stage passive optical fiber.
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