Optical device and optical communication apparatus

What is claimed is: 1. An optical device comprising: an X-cut substrate; a first optical waveguide and a second optical waveguide each being formed on the X-cut substrate and having a folding structure; a first signal electrode that is arranged on the X-cut substrate and generates a first electric field in accordance with one type electric signal of DC (Direct Current) signal or AC (Alternating Current) signal; and a second signal electrode that is arranged on the X-cut substrate and that generates a second electric field with a reverse phase as compared to the first electric field in accordance with a same type electric signal as the one type electric signal, wherein the first optical waveguide includes a first optical waveguide on an outward side to which the first electric field is applied from the first signal electrode; and a first optical waveguide on a return side to which the second electric field is applied from the second signal electrode, and the second optical waveguide includes a second optical waveguide on the outward side to which the first electric field is applied from the first signal electrode; and a second optical waveguide on the return side to which the second electric field is applied from the second signal electrode. 2. The optical device according to claim 1 , wherein a direction of the first electric field applied to the first optical waveguide on the outward side and a direction of the second electric field applied to the first optical waveguide on the return side are same, and a direction of the second electric field applied to the second optical waveguide on the outward side and a direction of the first electric field applied to the second optical waveguide on the return side are same. 3. The optical device according to claim 1 , wherein a direction of a crystal of the X-cut substrate, a direction of the first electric field applied to the first optical waveguide on the outward side, and a direction of the second electric field applied to the first optical waveguide on the return side are same. 4. The optical device according to claim 1 , wherein a first ground electrode, a second electrode, and a third electrode are arranged parallel to one another on the X-cut substrate, the first ground electrode having a folding structure and including a first ground electrode on the outward side and a first ground electrode on the return side, a second ground electrode having a folding structure and including a second ground electrode on the outward side and a second ground electrode on the return side; a first signal electrode and a second signal electrode are arranged parallel to each another on the X-cut substrate, the first signal electrode having a folding structure and including a first signal electrode on the outward side and a first signal electrode on the return side, the second signal electrode having a folding structure and including a second signal electrode on the outward side and a second signal electrode on the return side, the first optical waveguide on the outward side is arranged between the second ground electrode on the outward side and the second signal electrode on the outward side, the second optical waveguide on the outward side is arranged between the second signal electrode on the outward side and a third ground electrode, the first optical waveguide on the return side is arranged between the first ground electrode on the return side and the first signal electrode on the return side, and the second optical waveguide on the return side is arranged between the first signal electrode on the return side and the second ground electrode on the return side. 5. The optical device according to claim 4 , wherein a first ground electrode and a third ground electrode are arranged parallel to each other on the X-cut substrate, the first ground electrode having a folding structure and including a first ground electrode on the outward side and a first ground electrode on the return side, a first signal electrode and a second signal electrode are arranged parallel to each other on the X-cut substrate, the first signal electrode having a folding structure and including a first signal electrode on the outward side and a first signal electrode on the return side, the second signal electrode having a folding structure and including a second signal electrode on the outward side and a second signal electrode on the return side, the first optical waveguide on the outward side is arranged between the first signal electrode on the outward side and the second signal electrode on the outward side, the second optical waveguide on the outward side is arranged between the second signal electrode on the outward side and the third ground electrode, the first optical waveguide on the return side is arranged between the first ground electrode on the return side and the first signal electrode on the return side, and the second optical waveguide on the return side is arranged between the first signal electrode on the return side and the second signal electrode on the return side. 6. The optical device according to claim 1 , wherein the first optical waveguide includes a first optical waveguide on the outward side, a first optical waveguide on the return side, and a first intermediate optical waveguide that connect the first optical waveguide on the outward side and the first optical waveguide on the return side, the second optical waveguide includes a second optical waveguide on the outward side, a second optical waveguide on the return side, and a second intermediate optical waveguide that connects the second optical waveguide on the outward side and the second optical waveguide on the return side, and an optical waveguide length of the first intermediate optical waveguide and an optical waveguide length of the second intermediate optical waveguide are adjusted such that the optical waveguide length of the first optical waveguide and the optical waveguide length of the second optical waveguide become same. 7. The optical device according to claim 1 , wherein a fourth ground electrode and a fifth ground electrode are arranged on the X-cut substrate, the fourth ground electrode having a folding structure and including a fourth ground electrode on the outward side and a fourth ground electrode on the return side, the fifth ground electrode having a folding structure and including a fifth ground electrode on the outward side and a fifth ground electrode on the return side, a first signal electrode and a second signal electrode are arranged parallel to each other on the X-cut substrate, the first signal electrode having a folding structure, the second signal electrode having a folding structure, the first optical waveguide includes a first optical waveguide on a first outward side, a first optical waveguide on a second outward side, and a first optical waveguide on the return side that connects the first optical waveguide on the first outward side and the first optical waveguide on the second outward side, the second optical waveguide includes a second optical waveguide on the first outward side, a second optical waveguide on the second outward side, and a second optical waveguide on the return side that connects the second optical waveguide on the first outward side and the second optical waveguide on the second outward side, the first signal electrode includes a first signal electrode on the first outward side, a first signal electrode on the second outward side, and a first signal electrode on the return side that connects the first signal electrode on the first outward side and the first signal electrode on the second outward side, the second signal electrode includes a second signal electrode on the first outward side, a second s