Lighting apparatus, and optical inspection apparatus and optical microscope using the lighting apparatus

What is claimed is: 1. A lighting apparatus, comprising: a light source that emits light; an optical device that receives light from the light source and outputs light that is more uniformly intense over a predetermined ray angle distribution than light input thereto, the optical device being in a light path of the light source; a multi-reflection device that receives light from the optical device, reflects light multiple times, and emits multiple-reflected light, the multi-reflection device having a light incident surface that receives light from the optical device and a light emission surface that emits multiple-reflected light, the multi-reflection device being in a light path of the light source; a light diffusion device that receives light emitted from the light emission surface of the multi-reflection device and diffuses light, the light diffusion device being in a light path of the light source; and a light focusing optical system that receives light from the light diffusion device and focuses light onto an object to be illuminated, wherein the optical device, the multi-reflection device, and the light diffusion device are axially aligned with an objective lens of the light focusing optical system. 2. The lighting apparatus as claimed in claim 1 , wherein the optical device includes a plurality of concentric transmissive regions, adjacent transmissive regions having different transmittances. 3. The lighting apparatus as claimed in claim 2 , wherein each of the transmissive regions have different transmittances from one another. 4. The lighting apparatus as claimed in claim 2 , wherein the optical device includes: a first transmissive region at a center; a second transmissive region at an intermediate ring; and a third transmissive region at an outermost ring, wherein a third transmittance of the third transmissive region is higher than a second transmittance of the second transmissive region. 5. The lighting apparatus as claimed in claim 4 , wherein the third transmittance is higher than a first transmittance of the first transmissive region. 6. The lighting apparatus as claimed in claim 2 , wherein the optical device includes concentric transmissive regions having transmittances that continuously change in a radial direction. 7. The lighting apparatus as claimed in claim 6 , wherein the transmissive regions include: a central transmissive region formed at a center and having a central transmittance, an outer transmissive region at outermost ring and has an outer transmittance, and an intermediate transmissive region between the central transmissive region and the outer transmissive region and has an intermediate transmittance, wherein the outer transmittance is higher than the intermediate transmittance. 8. The lighting apparatus as claimed in claim 1 , wherein the optical device is between the light source and the multi-reflection device. 9. The lighting apparatus as claimed in claim 1 , wherein the optical device is between the light diffusion device and an object to be illuminated. 10. The lighting apparatus as claimed in claim 1 , wherein the optical device is before the multi-reflection device and further including another optical device after the multi-reflection device. 11. The lighting apparatus as claimed in claim 1 , wherein the light source is a point light source, wherein the lighting apparatus further includes a reflector that reflects the light emitted from the light source and focuses the reflected light onto the light incident surface of the multi-reflection device. 12. The lighting apparatus as claimed in claim 1 , wherein the light source is a laser-produced plasma (LPP) light source or a laser-driven light source (LDLS). 13. The lighting apparatus as claimed in claim 1 , wherein an area of a spot of the light focused on the light incident surface of the multi-reflection device is less than an area of the light incident surface of the multi-reflection device. 14. An optical inspection apparatus, comprising: a light source that emits light; an optical device that receives light from the light source and outputs light that is more uniformly intense over a predetermined ray angle distribution than light input thereto, the optical device being in a light path of the light source; a multi-reflection device that receives light from the optical device, reflects light multiple times, and emits multiple-reflected light, the multi-reflection device having a light incident surface receiving the light and a light emission surface that emits multiple-reflected light, the multi-reflection device being in a light path of the light source; a light diffusion device that receives light emitted from the light emission surface of the multi-reflection device and diffuses light, the light diffusion device being in a light path of the light source; an image pickup apparatus; and an optical path conversion device that receives light from the light diffusion device and transmits the light received from the light diffusion device to project onto an object to be inspected and reflects the light reflected from the object to be inspected the image pickup apparatus, wherein the image pickup apparatus receives light reflected from the optical path conversion device. 15. A lighting apparatus, comprising: a light source that emits light; an optical device that receives light from the light source and outputs light that is more uniformly intense over a predetermined ray angle distribution than light input thereto, the optical device being in a light path of the light source; an optical integrator having an input surface and an output surface, wherein light from the optical device is focused onto the input surface of the optical integrator, the optical integrator being in a light path of the light source and outputs integrated light; a diffuser that receives light output from the optical integrator and diffuses light, the diffuser being in a light path of the light source; and a light focusing optical system that receives light from the diffuser and focuses light onto an object to be illuminated, wherein the optical device, the optical integrator, and the diffuser are axially aligned with an objective lens of the light focusing optical system. 16. The lighting apparatus as claimed in claim 15 , wherein the optical device is designed in accordance with a ray angle distribution of the light from the light source and the predetermined ray angle distribution. 17. The lighting apparatus as claimed in claim 15 , wherein the optical device is between the light source and the optical integrator. 18. The lighting apparatus as claimed in claim 15 , wherein the optical device is after the diffuser. 19. The lighting apparatus as claimed in claim 15 , wherein the predetermined ray angle distribution is annular.