Patent ID: 7826137
Filing Date: 2010-11-02
Classification: G02B,G02F

Abstract:
1. A reflective optical circulator having an optical element unit, said optical element unit comprising: a first polarization separating element, a non-reciprocal polarization plane rotating element having a rotation angle of 45°, a phase element for rotating a polarization plane of an incident light by 90°, and a second polarization separating element, wherein a light incidence/emission unit where at least three waveguides are arrayed is disposed at one end side of the optical element unit, and a lens and a reflector are disposed at a side opposite to the light incidence/emission unit with the optical element unit interposed between the light incidence/emission unit and both the lens and the reflector, wherein the first polarization separating element, the polarization plane rotating element, the phase element, and the second polarization separating element are sequentially disposed from the side of the light incidence/emission unit, wherein all the waveguides are disposed at an equivalent distance from a central point of diagonal lines connecting central axes of the waveguides, wherein directions of crystal axes on optical planes of the first and second polarization separating elements are different from each other by 45°, wherein a shift amount of an extraordinary ray in the second polarization separating element is set to be larger than a shift amount of an extraordinary ray in the first polarization separating element, wherein a direction of the rotation angle of the polarization plane rotating element is set to be counterclockwise as seen from the light incidence/emission unit, wherein the phase element is constructed with two phase optical elements which are a first phase optical element and a second phase optical element, a size of each phase optical element is set so that only one polarization component among two polarization components of a ordinary ray and an extraordinary ray separated by the first polarization separating element can transmit through, and each of the phase optical elements is disposed so that said only one polarization component can transmit through the two phase optical elements, wherein, among the two polarization components separated by the first polarization separating element, the polarization component that becomes the extraordinary ray at the time of transmitting through the first polarization separating element transmits through the first phase optical element after the two polarization components are reflected by the reflector, and the polarization component that emitted from the light incidence/emission unit to the first polarization separating element becomes the ordinary ray at the time of transmitting through the first polarization separating element transmits through the second phase optical element, wherein a size of the second polarization separating element is set so that light emitted from the light incidence/emission unit and reflected by the reflector transmits through only one among a going path and a returning path of an optical path of light reciprocating the optical element unit, wherein the two polarization components are reflected by the reflector with a point symmetry, wherein a reflection point of the reflector and an optical axis of the lens are located along a same line in a propagation direction of light, and the central point of the diagonal lines connecting the central axes of the waveguides and the optical axis of the lens are not located along the same line, and wherein the second polarization separating element is disposed so that the light in a forward direction is incident on the second polarization separating element before being reflected by the reflector.