Polarization rotator

The invention claimed is: 1. A polarization rotator comprising: a polarization converter including a silicon rib waveguide and configured to convert TM-polarized basic mode light into TE-polarized 1st order mode light, the silicon rib waveguide including a center-portion core and a peripheral-portion core thinner than the center-portion core, and having such a tapered shape that a core width of the peripheral-portion core gradually increases along a propagation axis of the TM-polarized basic mode light that is converted into TE polarized 1 st order mode light; and a mode converter optically connected to the polarization converter and configured to convert the TE-polarized 1st order mode light into TE-polarized basic mode light, wherein the mode converter includes: an optical splitter optically connected to the polarization converter, a delay circuit including two waveguides, and an optical coupler. 2. The polarization rotator according to claim 1 , wherein the optical splitter includes a silicon rib waveguide with no center-portion core, and a silicon rib waveguide including two thick core portions, and the silicon rib waveguide with no center-portion core has one end connected to the polarization converter. 3. The polarization rotator according to claim 1 , wherein the mode converter includes a delay circuit including two waveguides optically connected to the polarization converter, and any one of an optical coupler and an optical combiner. 4. A polarization rotator comprising: a polarization converter including a silicon rib waveguide and configured to convert TM-polarized basic mode light into TE-polarized 1st order mode light, the silicon rib waveguide including a center-portion core and a peripheral-portion core thinner than the center-portion core, and having such a tapered shape that a core width of the peripheral-portion core gradually increases along a propagation axis of the TM-polarized basic mode light that is converted into TE polarized 1 st order mode light; and a mode converter optically connected to the polarization converter and configured to convert the TE-polarized 1st order mode light into TE-polarized basic mode light, wherein the mode converter includes: a delay circuit including two waveguides optically connected to the polarization converter, and any one of an optical coupler and an optical combiner. 5. The polarization rotator according to claim 4 , wherein the mode converter includes a delay circuit configured to cause a delay of ½ of a wavelength and a 2×1 coupler, or a delay circuit configured to cause a delay of ¼ of a wavelength and a 2×2 combiner. 6. The polarization rotator according to claim 5 , wherein the delay circuit of the mode converter that is configured to cause a delay of ¼ of a wavelength is two silicon rib waveguides each including a center-portion core having a first thickness and a peripheral-portion core having a second thickness, wherein the first thickness is greater than the second thickness, one of the two silicon rib waveguides has a structure including such tapers that a width of the center-portion core gradually increases and then gradually decreases toward an output side, and the 2×2 combiner of the mode converter is a directional coupler. 7. The polarization rotator according to claim 5 , wherein the center-portion core of the polarization converter has such a tapered shape that a width of the center-portion core gradually decreases toward an output side, and the peripheral-portion core of the polarization converter has such a tapered shape that the width of the peripheral-portion core gradually increases toward the output side. 8. The polarization rotator according to claim 7 , wherein the tapered shape of the peripheral-portion core of the polarization converter is designed such that the width of the peripheral-portion core increases in a curved manner. 9. The polarization rotator according to claim 8 , wherein the polarization rotator operates also as a polarization rotator-splitter. 10. The polarization rotator according to claim 5 , wherein the tapered shape of the peripheral-portion core of the polarization converter is designed such that the width of the peripheral-portion core increases in a curved manner. 11. The polarization rotator according to claim 5 , wherein the polarization rotator operates also as a polarization rotator-splitter. 12. The polarization rotator according to claim 4 , wherein the polarization converter and the mode converter are optically connected by a tapered intermediate waveguide, the tapered intermediate waveguide is a rib waveguide including a center-portion core and a peripheral-portion core thinner than the center-portion core, and has such a tapered shape that a width thereof gradually decreases toward an output side, a portion connecting the tapered intermediate waveguide and the mode converter includes two cores, and each of the two cores has such a tapered shape that a width of the core gradually increases. 13. The polarization rotator according to claim 4 , wherein the center-portion core of the polarization converter has such a tapered shape that a width of the center-portion core gradually decreases toward an output side, and the peripheral-portion core of the polarization converter has such a tapered shape that the width of the peripheral-portion core gradually increases toward the output side. 14. The polarization rotator according to claim 4 , wherein the tapered shape of the peripheral-portion core of the polarization converter is designed such that the width of the peripheral-portion core increases in a curved manner. 15. The polarization rotator according to claim 4 , wherein the polarization rotator operates also as a polarization rotator-splitter.