Patent ID: 9557586
Date: 2017-01-31
CPC Classifications: B23K,G02B,G02F

Claim:
1. An optical isolator comprising: a Faraday rotator and first and second birefringent crystal wedge polarizers aligned bilaterally to the Faraday rotator, the Faraday rotator and the first and second birefringent crystal wedge polarizers being configured as a non-reciprocal part in which an incident collimated beam entered into the non-reciprocal part through the first birefringent crystal wedge polarizer travels as an outgoing collimated beam upon passing through the Faraday rotator and the second birefringent crystal wedge polarizer, and in which a return light beam entered into the non-reciprocal part through the second birefringent crystal wedge polarizer in an opposite direction in parallel to the outgoing collimated beam is separated into two reverse direction collimated beams upon passing through the first birefringent crystal wedge polarizer; a first one of the two reverse direction collimated beams travelling in substantially the opposite direction at a certain angle to the incident collimated beam; and a second one of the two reverse direction collimated beams travelling in substantially the opposite direction at the certain angle to the incident collimated beam; wherein an optic axis of the first reverse direction collimated beam and an optic axis of the second reverse direction collimated beam are in a 180 degree rotation symmetric relation; and a lens having a plurality of focal points and first, second and third optical fibers are configured to have such an arrangement that a first tip end of the first optical fiber is disposed at one of the focal points of the lens such that an incident beam emitted from the first tip end of the first optical fiber and transformed into a collimated beam upon passing through the lens is incident to the first birefringent crystal wedge polarizer of the non-reciprocal part, and that first tip ends of the second and third optical fibers are disposed at others of the focal points of the lens on which the reverse direction collimated beams are focused, respectively, upon passing through the lens, so as to receive the reverse direction collimated beams, wherein the first, second and third optical fibers are fixed in position by a fixing device, wherein a periphery of the lens, portions including the first tip ends of the first, second and third optical fibers, and the fixing device are housed and fixed in a holder, and wherein the reverse direction collimated beams entered into the second and third fibers, respectively, are led therethrough to outside of the holder.