Illumination device and vehicle headlight

The invention claimed is: 1. An illumination device comprising: an excitation light source emitting laser light; a light emitting element comprising a fluorescent material that emits florescent light upon receiving the laser light, the light emitting element having an incident surface and a contact surface opposite from the incident surface, and the laser light being incident on the incident surface; a reflecting mirror that reflects the fluorescent light emitted from the light emitting element so as to emit the reflected light out of the device; and an optical member that reflects, toward the incident surface of the light emitting element, at least part of light that has not been directed toward the reflecting mirror, the light emitting element being provided substantially at a focal point of the reflecting mirror, and an optical axis of the optical member being inclined with respect to a normal line of the incident surface; a supporting member supporting the light emitting element and the optical member so that the light emitting element and the optical member are provided on a reflecting-mirror side of the supporting member, the supporting member supporting, on a common surface thereof, the light emitting element and the optical member, the common surface being a flat surface facing a reflective surface of the reflecting mirror, the light emitting element and the optical member being directly mounted on the common surface, the contact surface of the light emitting element is in contact with the common surface so that the fluorescent light is released from the incident surface and not released from the contact surface, and the optical member comprises a layer that reflects the florescent light and absorbs the laser light. 2. The illumination device as set forth in claim 1 , wherein the incident surface is a surface having a part facing the reflective surface of the reflecting mirror. 3. An illumination device comprising: an excitation light source emitting laser light; a light emitting element comprising a fluorescent material that emits florescent light upon receiving the laser light, the light emitting element having an incident surface and a contact surface opposite from the incident surface, and the laser light being incident on the incident surface; a reflecting mirror that reflects the fluorescent light emitted from the light emitting element so as to emit the reflected light out of the device; and an optical member that reflects, toward substantially a focal point of the reflecting mirror, at least part of light which has not been directed to the reflecting mirror, the light emitting element being provided substantially at the focal point of the reflecting mirror, and the incident surface faces a reflective surface of the reflecting mirror and is irradiated with light reflected from the optical member; a supporting member supporting the light emitting element and the optical member so that the light emitting element and the optical member are provided on a reflecting-mirror side of the supporting member, the supporting member supporting, on a common surface thereof, the light emitting element and the optical member, the common surface being a flat surface facing the reflective surface of the reflecting mirror, the light emitting element and the optical member being directly mounted on the common surface, the contact surface of the light emitting element is in contact with the common surface so that the fluorescent light is released from the incident surface and not released from the contact surface, and the optical member comprises a layer that reflects the florescent light and absorbs the laser light. 4. The illumination device as set forth in claim 1 , wherein at least part of the light, which is emitted from the light emitting element and is then reflected back from the optical member toward substantially the focal point, is directed toward the reflecting mirror. 5. The illumination device as set forth in claim 1 , wherein excitation light, which has not been converted into fluorescence, being reflected back, from the optical member, toward the light emitting element, and being then converted by the fluorescent material into fluorescence. 6. The illumination device as set forth in claim 1 , wherein the optical member has a layer that transmits the fluorescence therethrough and reflects the laser beam light. 7. The illumination device as set forth in claim 1 , wherein the optical member intersects with (i) a straight line through substantially the focal point and an edge of an opening of the reflecting mirror and (ii) a straight line through a peak of the reflecting mirror and substantially the focal point. 8. The illumination device as set forth in claim 7 , wherein a distance between the optical member and substantially the focal point is shorter than a minimum distance between substantially the focal point and the reflecting mirror. 9. The illumination device as set forth in claim 1 , wherein the optical member has a concave spherical surface. 10. The illumination device as set forth in claim 1 , wherein: a reflective surface of the reflecting mirror has at least part of a partial curved surface obtained by forming a curved surface by rotating an ellipse, circle, or parabola around a symmetry axis, serving as a rotation axis, of the ellipse, circle, or parabola and by cutting the curved surface along a flat surface in which the symmetry axis is contained; the surface of supporting member on which the light emitting element and the optical member are provided operates as a counter surface with respect to the reflective surface; and the optical member is provided on the counter surface. 11. A vehicle headlight including an illumination device, the illumination device comprising: an excitation light source emitting laser light; a light emitting element comprising a fluorescent material that emits florescent light upon receiving the laser light, the light emitting element having a incident surface and a contact surface opposite from the incident surface, and the laser light being incident on the incident surface; a reflecting mirror that reflects the fluorescent light emitted from the light emitting element so as to emit the reflected light out of the device; and an optical member that reflects, toward the incident surface of the light emitting element, at least part of light that has not been directed toward the reflecting mirror, the light emitting element being provided substantially at a focal point of the reflecting mirror, and an optical axis of the optical member being inclined with respect to a normal line of the incident surface; a supporting member supporting the light emitting element and the optical member so that the light emitting element and the optical member are provided on a reflecting-mirror side of the supporting member, the supporting member supporting, on a common surface thereof, the light emitting element and the optical member, the common surface being a flat surface facing a reflective surface of the reflecting mirror, the light emitting element and the optical member being directly mounted on the common surface, the contact surface of the light emitting element is in contact with the common surface so that the fluorescent light is released from the incident surface and not released from the contact surface, and the optical member comprises a layer that reflects the florescent light and absorbs the laser light. 12. An illumination device comprising: an excitation light source emitting laser light; a light emitting element comprising a fluorescent material that emits florescent light upon receiving