Electrode structures for optical modulators

What is claimed is: 1. A device comprising: a substrate; an optical waveguide formed in or on the substrate; a signal electrode extending along a longitudinal axis, the signal electrode comprising: a first signal portion with a proximal end that is proximal to the optical waveguide, to induce a signal from the signal electrode to the optical waveguide, and a second signal portion, at least partially attached to or continuous with a distal end of the first signal portion; and one or more ground electrodes that form an enclosure, the one or more ground electrodes comprising: first ground portions adjacent to the substrate and on opposite lateral sides of the first signal portion, and second ground portions, including a first portion and a second portion, the first signal portion extending through a gap between the first portion and the second portion, the second signal portion overlapping a portion of a length of the first portion and a portion of a length of the second portion, and the enclosure enclosing the signal electrode with regard to a side of the substrate in a plane perpendicular to the longitudinal axis. 2. The device of claim 1 , where a part of the one or more ground electrodes extends into the enclosure between the second signal portion of the signal electrode and the substrate, and where the device further comprises one or more gaps in the part; and where the first signal portion of the signal electrode extends through at least one of the one or more gaps. 3. The device of claim 2 , where the one or more gaps comprise a gap that is continuous along the longitudinal axis. 4. The device of claim 1 , where a ground electrode, is provided adjacent to a surface of the substrate opposite a surface to which the signal electrode is proximate. 5. The device of claim 1 , where the second signal portion of the signal electrode is supported by at least one of: the first signal portion of the signal electrode, or a dielectric material extending from a first surface of the one or more ground electrodes to a second surface of the one or more ground electrodes. 6. The device of claim 1 , where the first signal portion of the signal electrode is attached to the second signal portion of the signal electrode at an interface, the interface including a metallic or dielectric layer to increase compliance between the first signal portion and the second signal portion of the signal electrode. 7. The device of claim 1 , where the one or more ground electrodes further comprise: two first ground electrodes attached to the second ground portions, respectively, the two first ground electrodes extending away from a surface of the substrate, and extending further than the signal electrode, and a second ground electrode formed between the two first ground electrodes toward a distal end of the two first ground electrodes. 8. A device comprising: a substrate; an optical waveguide formed in or on the substrate; a signal electrode extending along a longitudinal axis, comprising: a first signal portion comprising a first end proximate to the optical waveguide to induce a signal from the signal electrode to the optical waveguide, and a second end distal from the optical waveguide, and a second signal portion at least partially connected to the second end of the first signal portion; and a ground electrode comprising: first ground portions adjacent to the substrate and on opposite lateral sides of the first signal portion, and second ground portions, including a first portion and a second portion, the first signal portion extending through a gap between the first portion and the second portion, and the second signal portion overlapping a portion of a length of the first portion and a portion of a length of the second portion, and the ground electrode forming an enclosure that encloses the signal electrode with regard to the substrate. 9. The device of claim 8 , where the first signal portion is periodically attached to the second signal portion along the longitudinal axis. 10. The device of claim 8 , where the second signal portion is structurally supported by at least one of: the first signal portion, or a dielectric material, attached to the enclosure. 11. The device of claim 10 , where the gap is one of one or more gaps, the one or more gaps are closed at a cross section of the device where the second signal portion is attached to the dielectric material, and the one or more gaps are open at a cross section where the second signal portion is attached to the first signal portion. 12. The device of claim 8 , where the second signal portion is formed separately from the first signal portion and subsequently attached to the first signal portion; and where the second ground portions are formed separately from the first ground portions and subsequently attached to the first ground portions. 13. The device of claim 8 , where the second signal portion defines two spaces on opposite sides of the first signal portion, the spaces being situated between the second signal portion and the substrate; and where the second ground portions include flanges that extend into the spaces. 14. The device of claim 8 , where the optical waveguide is a first optical waveguide; and where the device further comprises a second optical waveguide formed in or on the substrate, the second optical waveguide being proximate to a particular ground portion of the first ground portions and the second ground portions; and where the particular ground portion comprises a slot, adjacent to the second optical waveguide and continuing at least partially to an outer surface of the particular ground portion. 15. The device of claim 8 , where the second signal portion is located a first distance from the substrate, and the second ground portions are located a second distance from the substrate, the first distance being greater than the second distance. 16. A device comprising: a substrate; an optical waveguide formed on or in the substrate; and an electrode structure on the substrate extending along a longitudinal axis, the electrode structure comprising: an enclosure comprising a ground electrode and a signal electrode, the ground electrode comprising: an interior member, including a first portion and a second portion, dividing the enclosure into a first space and a second space,  the interior member including one or more gaps connecting the first space to the second space, and  a gap, of the one or more gaps, separating the first portion from the second portion, and the signal electrode comprising a first signal portion and a second signal portion, the first signal portion extending from the first space through at least one of the one or more gaps into the second space, and  at least part of the first signal portion being proximate to the optical waveguide to induce a signal from the signal electrode to the optical waveguide, and the second signal portion in the second space being connected to the first signal portion to reduce radio frequency loss associated with the electrode structure, the second signal portion overlapping a portion of a length of the first portion and a portion of a length of the second portion, and the signal electrode being enclosed, with regard to a surface of the substrate, by the enclosure in a plane perpendicular to the longitudinal axis. 17. The device of claim 16 , where the enclosure includes a portion of the ground electrode attached to a surface of the substrate that is opposite a surface to which the