Optical modulator

The invention claimed is: 1. An optical modulator comprising: a base body section having a principal surface; a ridge optical waveguide provided on the principal surface of the base body section and extending along a first direction along the principal surface; and a modulation electrode for modulating light guided through the ridge optical waveguide, wherein the principal surface of the base body section has an installation surface on which the ridge optical waveguide is provided, and first and second surfaces which are located so as to interpose the installation surface therebetween along a second direction orthogonal to the first direction and along the principal surface, wherein the modulation electrode is composed of a signal electrode to which a modulation signal is supplied, a first ground electrode, and a second ground electrode, wherein the signal electrode has a wide portion being a portion provided on the ridge optical waveguide so as to extend along the first direction, the wide portion having a width in the second direction wider than a width in the second direction of an uppermost portion of the ridge optical waveguide, wherein the first ground electrode has a first ground electrode component provided on the first surface so as to extend along the first direction, wherein the second ground electrode has a second ground electrode component provided on the second surface so as to extend along the first direction, wherein the first ground electrode component has at least one first through-hole provided in only a portion in the first direction of the first ground electrode component, wherein the second ground electrode component has at least one second through-hole provided in only a portion in the first direction of the second ground electrode component, wherein the at least one first through-hole overlaps the wide portion of the signal electrode or faces the wide portion in the second direction as seen in a planar view, and wherein the at least one second through-hole overlaps the wide portion of the signal electrode or faces the wide portion in the second direction as seen in a planar view. 2. The optical modulator according to claim 1 , wherein each of the at least one first through-hole and the at least one second through-hole has a circular shape, an elliptical shape, a racetrack shape, or a rounded rectangle shape, as seen in a planar view. 3. The optical modulator according to claim 1 , wherein the first ground electrode component has a plurality of first through-holes, wherein the plurality of first through-holes are provided in order along the first direction, wherein the second ground electrode component has a plurality of second through-holes, and wherein the plurality of second through-holes are provided in order along the first direction. 4. The optical modulator according to claim 1 , wherein the at least one first through-hole is spaced apart from a side surface on the ridge optical waveguide side of the first ground electrode component as seen in a planar view, and wherein the at least one second through-hole is spaced apart from a side surface on the ridge optical waveguide side of the second ground electrode component as seen in a planar view. 5. The optical modulator according to claim 4 , wherein the at least one first through-hole is spaced apart from the side surface on the ridge optical waveguide side of the first ground electrode component by 2 μm or more as seen in a planar view, and wherein the at least one second through-hole is spaced apart from the side surface on the ridge optical waveguide side of the second ground electrode component by 2 μm or more as seen in a planar view. 6. The optical modulator according to claim 1 , wherein the first ground electrode component and the second ground electrode component are provided substantially line-symmetrically with respect to an optical axis of the ridge optical waveguide as seen in a planar view.