Wavelength division multiplexing optical receiver

What is claimed is: 1. A wavelength division multiplexing optical receiver, comprising: an input waveguide made of a silicon wire waveguide; a polarization beam splitter connected to the input waveguide in order to divide light inputted from the input waveguide into a first signal and a second signal in accordance with a polarization plane; a loop waveguide connected to an output end of the polarization beam splitter and made of a silicon wire waveguide through which the first signal and the second signal propagate in opposite directions from each other; a polarization rotator inserted into the loop waveguide in order to rotate the polarization plane of the second signal by 90°; a number of ring waveguides made of silicon wire waveguides having different optical path lengths optically coupled to the loop waveguide on an add port side of each of the ring waveguides; output waveguides made of silicon wire waveguides optically coupled to each of the ring waveguides on a drop port side and having two output ports; and light receivers connected to an output waveguide without having to go via a polarization rotator or a polarization multiplexer in such a manner that the optical distances between the polarization beam splitter and a first light-receiving surface and between the polarization beam splitter and a second light-receiving surface are equal, wherein each of the light receivers has first and second light-receiving units that are arranged so as to be parallel to each other and optical signals are inputted through the first light-receiving surface provided in the first light-receiving unit and the second light-receiving surface provided in the second light-receiving unit in opposite directions from each other. 2. The wavelength division multiplexing optical receiver according to claim 1 , wherein the light-receiving units include single crystal germanium grown on a silicon wire waveguide. 3. The wavelength division multiplexing optical receiver according to claim 1 , further comprising a delay wire inserted into each of the output waveguides in such a manner that the optical distances between the polarization beam splitter and the first light-receiving surface and between the polarization beam splitter and the second light-receiving surface are equal. 4. The wavelength division multiplexing optical receiver according to claim 1 , further comprising a heating means for adjusting the optical path length provided in each of the ring waveguides. 5. The wavelength division multiplexing optical receiver according to claim 1 , further comprising a heating means for adjusting an optical path length provided in each of the output waveguides.