Patent ID: 8714777

Claim:
An optical device comprising: a high pressure discharge lamp; a concave condensing mirror that is placed so as to surround the high pressure discharge lamp while an optical axis of the concave condensing mirror stays extended along a direction of an arc of the high pressure discharge lamp; and an aspherical lens that is placed forward a light exit direction of the concave condensing mirror and that is rotationally symmetrical with respect to the optical axis of the concave condensing mirror, wherein: a reflecting surface of the concave condensing mirror is configured to have a shape set in connection with a shape of a light incident surface and a shape of a light exit surface of the aspherical lens in such a way that there is exhibited an outgoing light distribution in which a ray density of light rays from an arc center (hereinafter called as “arc center light rays”) becomes minimum at a position on the light exit surface of the aspherical lens where the light ray, which undergoes reflection at a reflecting position perpendicular to the optical axis of the concave condensing mirror passing through the arc center of the high pressure discharge lamp, exits out of the light exit surface of the aspherical lens and the ray density of the arc center light rays becomes greater with an increasing distance from the position toward a brim of the aspherical lens and a center axis of the asperical lens, thereby obtaining the outgoing light distribution in which an arc image becomes minimum at the position on the light exit surface of the aspherical lens where the light ray, which undergoes reflection at the reflecting position perpendicular to the optical axis of the concave condensing mirror passing through the arc center of the high pressure discharge lamp, exits out of the light exit surface of the aspherical lens, and the arc image becomes greater with the increasing distance from the position toward the brim of the aspherical lens and the center axis of the same.