Optical modulator and method of manufacturing an optical modulator

What is claimed is: 1 . An optical modulator comprising: a first Mach-Zehnder modulation portion including a first waveguide and a second waveguide; a second Mach-Zehnder modulation portion including a third waveguide and a fourth waveguide; a third Mach-Zehnder modulation portion optically coupled to the first Mach-Zehnder modulation portion and the second Mach-Zehnder modulation portion; and an optical coupler optically coupled to the third Mach-Zehnder modulation portion, wherein the third Mach-Zehnder modulation portion includes a fifth waveguide including an input end optically coupled to an output end of the first waveguide, a sixth waveguide including an input end optically coupled to an output end of the second waveguide, a seventh waveguide including an input end optically coupled to an output end of the third waveguide, an eighth waveguide including an input end optically coupled to an output end of the fourth waveguide, a first electrode connected to the fifth waveguide and the sixth waveguide, and a second electrode connected to the seventh waveguide and the eighth waveguide, and wherein the optical coupler is optically coupled to an output end of the fifth waveguide, an output end of the sixth waveguide, an output end of the seventh waveguide, and an output end of the eighth waveguide. 2 . The optical modulator according to claim 1 , further comprising: a ninth waveguide connecting the output end of the first waveguide and the input end of the fifth waveguide to each other, wherein an upper cladding of the ninth waveguide includes a first electrically conductive type semiconductor layer, and wherein an upper cladding of the first waveguide and an upper cladding of the fifth waveguide each include a second electrically conductive type semiconductor layer. 3 . The optical modulator according to claim 1 , wherein the optical coupler includes a first optical coupler optically coupled to the output end of the fifth waveguide and the output end of the sixth waveguide, a second optical coupler optically coupled to the output end of the seventh waveguide and the output end of the eighth waveguide, and a third optical coupler optically coupled to the first optical coupler and the second optical coupler. 4 . A method of manufacturing an optical modulator, the method comprising: preparing the optical modulator according to claim 1 , in which the optical modulator further includes a third electrode connected to the first waveguide, a fourth electrode connected to the second waveguide, a fifth electrode connected to the third waveguide, and a sixth electrode connected to the fourth waveguide; adjusting a voltage applied to the third electrode and a voltage applied to the fourth electrode; adjusting a voltage applied to the fifth electrode and a voltage applied to the sixth electrode; adjusting a voltage applied to the first electrode and a voltage applied to the second electrode based on a result of adjustment of the voltages applied to the third electrode, the fourth electrode, the fifth electrode, and the sixth electrode; and readjusting the voltages applied to the third electrode and the fourth electrode or the voltages applied to the fifth electrode and the sixth electrode based on a result of adjustment of the voltages applied to the first electrode and the second electrode.