Display device and light guide device

What is claimed is: 1. A display device comprising: an image light generation device configured to output an image light; a first diffraction element configured to diffract the image light that has entered a first incident plane such that the image light is directed to an eye of an observer; and a second diffraction element disposed on an optical path between the image light generation device and the first diffraction element, the second diffraction element being configured to diffract the image light that has entered a second incident plane such that the image light is directed to the first diffraction element, wherein the first diffraction element has highest diffraction efficiency in a first direction when light enters from a direction of a normal to the first incident plane, the second diffraction element has highest diffraction efficiency in a second direction when light enters from a direction of a normal to the second incident plane, the first diffraction element and the second diffraction element are disposed such that, if the sum of the number of reflections of light and the number of times of intermediate image generation between the second diffraction element and the first diffraction element is an even number, when viewed from direction of normal to virtual plane that include a normal to the first incident plane and a normal to the second incident plane, the direction of the first direction with respect to the direction of the normal to the first incident plane and the direction of the second direction with respect to the direction of the normal to the second incident plane are the same as each other, and the first diffraction element and the second diffraction element are disposed such that, if the sum of the number of reflections of light and the number of times of intermediate image generation between the second diffraction element and the first diffraction element is an odd number, when viewed from the direction of the normal to the virtual plane that include the normal to the first incident plane and the normal to the second incident plane, the direction of the first direction with respect to the direction of the normal to the first incident plane and the direction of the second direction with respect to the direction of the normal to the second incident plane are different from each other. 2. The display device according to claim 1 , wherein the first diffraction element and the second diffraction element are reflective holographic elements. 3. The display device according to claim 2 , wherein the first diffraction element and the second diffraction element are reflective volume holographic elements. 4. The display device according to claim 2 , wherein the first diffraction element and the second diffraction element have a plurality of interference fringes linearly extending parallel to each other. 5. The display device according to claim 2 , wherein the first diffraction element and the second diffraction element have a plurality of curved interference fringes extending parallel to each other. 6. The display device according to claim 2 , wherein the first diffraction element and the second diffraction element have a plurality of kinds of interference fringes of different pitches. 7. A light guide device comprising: a first diffraction element configured to diffract a light that has been emitted from a light source and that has entered a first incident plane; and a second diffraction element disposed on an optical path between the light source and the first diffraction element, the second diffraction element being configured to diffract the light that has entered a second incident plane such that the image light is directed to the first diffraction element, wherein the first diffraction element has highest diffraction efficiency in a first direction when light enters from a direction of a normal to the first incident plane, the second diffraction element has highest diffraction efficiency in a second direction when light enters from a direction of a normal to the second incident plane, the first diffraction element and the second diffraction element are disposed such that, if the sum of the number of reflections of light and the number of times of intermediate image generation between the second diffraction element and the first diffraction element is an even number, when viewed from direction of normal to virtual plane that include a normal to the first incident plane and a normal to the second incident plane, the direction of the first direction with respect to the direction of the normal to the first incident plane and the direction of the second direction with respect to the direction of the normal to the second incident plane are the same as each other, and the first diffraction element and the second diffraction element are disposed such that, if the sum of the number of reflections of light and the number of times of intermediate image generation between the second diffraction element and the first diffraction element is an odd number, when viewed from the direction of the normal to the virtual plane that include the normal to the first incident plane and the normal to the second incident plane, the direction of the first direction with respect to the direction of the normal to the first incident plane and the direction of the second direction with respect to the direction of the normal to the second incident plane are different from each other. 8. The light guide device according to claim 7 , wherein the first diffraction element and the second diffraction element are reflective holographic elements. 9. The light guide device according to claim 8 , wherein the first diffraction element and the second diffraction element are reflective volume holographic elements.