Laser device and internal combustion engine

What is claimed is: 1. A laser device, comprising: a light source configured to emit a laser beam; an optical system configured to concentrate the laser beam emitted from the light source; an optical window through which the laser beam exited from the optical system passes; a housing configured to accommodate the optical system; and an optical window holding member fixed to the housing, the optical window holding member holding the optical window, wherein the optical window has a protruding face through which the laser beam passes, and the protruding face protrudes with reference to an edge of the optical window holding member and a film is formed on the protruding face of the optical window, wherein the film is an antireflection film configured to prevent the laser beam from being reflected. 2. A laser device, comprising: a light source configured to emit a laser beam; an optical system configured to concentrate the laser beam emitted from the light source; an optical window through which the laser beam exited from the optical system passes; a housing configured to accommodate the optical system; and an optical window holding member fixed to the housing, the optical window holding member holding the optical window, wherein the optical window has a face through which the laser beam passes, the face is on a same plane with an edge of the optical window holding member, the edge contacts the optical window, and a film is formed on the face of the optical window. 3. The laser device according to claim 2 , wherein the film is an antireflection film configured to prevent the laser beam from being reflected. 4. The laser device according to claim 3 , wherein the antireflection film has surface roughness (Ra) equal to or less than 100 nm. 5. The laser device according to claim 2 , wherein the film is a catalyst layer configured to enhance oxidation-reduction reaction. 6. The laser device according to claim 5 , wherein the film has thickness equal to or less than 1 μm. 7. The laser device according to claim 6 , wherein the catalyst layer includes a photocatalyst, and the photocatalyst has an average particle diameter equal to or shorter than 100 nm. 8. The laser device according to claim 6 , further comprising a hydrophilic layer between the optical window and the catalyst layer. 9. The laser device according to claim 2 , wherein the optical window has a microstructure division provided with a plurality of micro-convex parts or micro-concave parts, on at least one face through which the laser beam passes. 10. The laser device according to claim 9 , wherein the optical window holding member and the housing are formed of an iron-nickel-cobalt alloy. 11. The laser device according to claim 2 , wherein the optical window holding member and the housing are formed of a material having a same coefficient of thermal expansion. 12. A laser device comprising: a light source configured to emit a laser beam; an optical system configured to concentrate the laser beam emitted from the light source; an optical window through which the laser beam exited from the optical system passes; a housing configured to accommodate the optical system; and an optical window holding member fixed to the housing, the optical window holding member holding the optical window, wherein the optical window has a depressed face through which the laser beam passes and the depressed face is depressed with reference to an edge of the optical window holding member, the optical window holding member has a diameter-enlarged portion whose internal diameter is enlarged from a depressed position of the depressed face of the optical window towards an outside of the optical window holding member, and a film is formed on the depressed face that is at the depressed position. 13. The laser device according to claim 12 , wherein the film is formed across the optical window and the optical window holding member. 14. The laser device according to claim 12 , wherein the film is an antireflection film configured to prevent the laser beam from being reflected. 15. The laser device according to claim 14 , wherein the antireflection film has surface roughness (Ra) equal to or less than 100 nm. 16. The laser device according to claim 12 , wherein the film is a catalyst layer configured to enhance oxidation-reduction reaction. 17. The laser device according to claim 16 , wherein the film has thickness equal to or less than 1 μm. 18. The laser device according to claim 17 , wherein the catalyst layer includes a photocatalyst, and the photocatalyst has an average particle diameter equal to or shorter than 100 nm. 19. The laser device according to claim 17 , further comprising a hydrophilic layer between the optical window and the catalyst layer. 20. An internal combustion engine comprising: the laser device according to claim 1 ; and a combustion chamber configured to bum fuel, wherein the fuel is ignited by the laser beam emitted from laser device.