Patent ID: 7321463

Claim:
An in-line optical isolator comprising: a plurality of individual pairs of an input optical fiber for inputting a forward optical signal in a forward direction and an output optical fiber for outputting a forward optical signal in a reflection direction that is input from the input optical fiber; a birefringent crystal positioned next to said input fibers and said output fibers for separating said forward optical signals in the forward direction into ordinary rays and extraordinary rays and combining said ordinary rays and said extraordinary rays in the reflection direction into said forward optical signals; a half-wave plate positioned next to said birefringent crystal and provided along either the optical axes of said ordinary rays and said extraordinary rays of said forward optical signals in the forward direction or the optical axes of said ordinary rays and said extraordinary rays of said forward optical signals in the reflection direction and rotating the polarization directions of said ordinary rays and said extraordinary rays reciprocally; a lens positioned next to said half-wave plate for collimating said ordinary rays and said extraordinary rays in the forward direction and collecting said ordinary rays and extraordinary rays in the reflection direction; a Faraday rotator positioned next to said lens for rotating the polarization directions of said ordinary rays and said extraordinary rays in both the forward direction and the reflection direction non-reciprocally; and a reflector positioned next to said Faraday rotator for reflecting said ordinary rays and said extraordinary rays from the forward direction to the reflection direction, wherein the optical axis of said birefringent crystal is oriented so that the separation direction of said ordinary rays and said extraordinary rays are arranged in a plane that is perpendicular to a plane including the optical axes of said input optical fibers and said output optical fibers and the optical axes of said ordinary rays and extraordinary rays of the forward optical signals in the forward direction and the ordinary rays and extraordinary rays of the forward optical signals in the reflection direction are arranged at an equal distance within each of these four rays from the optical axis of said lens at each point between said lens and said reflector.