Optical scanning element

What is claimed is: 1. An optical scanning element, comprising: a photonic crystal layer having holes periodically formed in an electro-optical crystal substrate; a line-defect optical waveguide formed in the photonic crystal layer; a diffraction grating arranged in at least one portion selected from an upper portion, a left side surface portion, and a right side surface portion of the line-defect optical waveguide; and electrodes arranged on a left side and a right side of the line-defect optical waveguide, wherein the optical scanning element is configured so that an emission angle of light emitted from an upper surface of the line-defect optical waveguide is changed, wherein the electro-optical crystal substrate includes one selected from the group consisting of: lithium niobate; lithium tantalate; potassium titanate phosphate; potassium lithium niobate; potassium niobate; potassium tantalate niobate; and a solid solution of lithium niobate and lithium tantalate. 2. The optical scanning element according to claim 1 , further comprising: a support substrate arranged below the electro-optical crystal substrate, the support substrate being configured to support the electro-optical crystal substrate; a joining portion configured to integrate the electro-optical crystal substrate and the support substrate with each other; and a cavity defined by a lower surface of the electro-optical crystal substrate, an upper surface of the support substrate, and the joining portion. 3. The optical scanning element according to claim 1 , further comprising a clad layer arranged on an upper surface of the photonic crystal layer, wherein the diffraction grating is arranged in a portion on an upper surface of the clad layer corresponding to the line-defect optical waveguide. 4. The optical scanning element according to claim 1 , wherein the diffraction grating has a plurality of grating grooves extending in a direction substantially perpendicular to a waveguide direction of the line-defect optical waveguide. 5. The optical scanning element according to claim 1 , wherein the line-defect optical waveguide has a length of 5 mm or less. 6. The optical scanning element according to claim 1 , wherein the electrodes are transparent to light, and are arranged above the photonic crystal layer so as to overlap the holes. 7. An optical scanning element, comprising: a photonic crystal layer having holes periodically formed in an electro-optical crystal substrate; a line-defect optical waveguide formed in the photonic crystal layer; a diffraction grating arranged in at least one portion selected from an upper portion, a left side surface portion, and a right side surface portion of the line-defect optical waveguide; electrodes arranged on a left side and a right side of the line-defect optical waveguide; a support substrate arranged below the electro-optical crystal substrate, the support substrate being configured to support the electro-optical crystal substrate; a joining portion configured to integrate the electro-optical crystal substrate and the support substrate with each other; a cavity defined by a lower surface of the electro-optical crystal substrate, an upper surface of the support substrate, and the joining portion; and a clad layer arranged on an upper surface of the photonic crystal layer, the optical scanning element being configured so that an emission angle of light emitted from an upper surface of the line-defect optical waveguide is changed, wherein the diffraction grating is arranged in a portion on an upper surface of the clad layer corresponding to the line-defect optical waveguide, wherein the diffraction grating has a plurality of grating grooves extending in a direction substantially perpendicular to a waveguide direction of the line-defect optical waveguide, wherein the line-defect optical waveguide has a length of 5 mm or less, wherein the electro-optical crystal substrate includes one selected from the group consisting of: lithium niobate; lithium tantalate; potassium titanate phosphate; potassium lithium niobate; potassium niobate; potassium tantalate niobate; and a solid solution of lithium niobate and lithium tantalate, wherein the electrodes are transparent to light, and are arranged above the photonic crystal layer so as to overlap the holes.