Patent Number: 
Section: claims

1. A laser irradiation apparatus comprising:a laser oscillator,an optical system to convert a laser light emitted from the laser oscillator so that a beam spot on a surface to be irradiated becomes a line shape or an elliptical shape;anda means for controlling a scanning speed of the converted laser light so as to become higher as the beam spot gets closer to a center of the surface to be irradiated and become lower as the beam spot gets farther from the center of the surface to be irradiated. 2. A laser irradiation apparatus according to claim 1, wherein the scanning speed of the laser light is determined based on an energy distribution obtained by a means for focusing the laser light. 3. A laser irradiation apparatus according to claim 1, wherein the scanning speed of the laser light is controlled to homogenize an irradiation energy on the surface to be irradiated. 4. A laser irradiation apparatus according to claim 1, wherein an irradiation position of the beam spot is controlled to scan a specific position on the surface to be irradiated. 5. A laser irradiation apparatus according to claim 1, wherein the laser oscillator is a continuous oscillation solid laser. 6. A laser irradiation apparatus according to claim 1, wherein the laser oscillator is at least one selected from the group consisting of a continuous oscillation YAG laser, YVO4 laser, YLF laser, YAlO3 laser, Y2O3 laser, Alexandrite laser, and Ti: Sapphire laser. 7. A laser irradiation apparatus according to claim 1, wherein the laser oscillator is one of a continuous oscillation Ar laser and Kr laser. 8. A laser irradiation apparatus according to claim 1, wherein the laser light is a harmonic wave. 9. A laser irradiation apparatus comprising:a laser oscillator;an optical system to convert a laser light emitted from the laser oscillator so that a beam spot on a surface to be irradiated becomes a line shape or an elliptical shape;a means for scanning while keeping a shape of the converted laser light on the surface to be irradiated constant; anda means for controlling a scanning speed of the scanning means so as to become higher as the beam spot gets closer to a center of the surface to be irradiated and become lower as the beam spot gets farther from the center of the surface to be irradiated. 10. A laser irradiation apparatus according to claim 9, wherein the shape of the laser light is kept constant by adjusting a focal point of the laser light on the surface to be irradiated. 11. A laser irradiation apparatus according to claim 9, wherein the scanning speed of the laser light is determined based on an energy distribution obtained by a means for focusing the laser light. 12. A laser irradiation apparatus according to claim 9, wherein the scanning speed of the laser light is controlled to homogenize an irradiation energy on the surface to be irradiated. 13. A laser irradiation apparatus according to claim 9, wherein an irradiation position of the beam spot is controlled to scan a specific position on the surface to be irradiated. 14. A laser irradiation apparatus according to claim 9, wherein the laser oscillator is a continuous oscillation solid laser. 15. A laser irradiation apparatus according to claim 9, wherein the laser oscillator is at least one selected from the group consisting of a continuous oscillation YAG laser, YVO4 laser, YLF laser, YAlO3 laser, Y2O3 laser, Alexandrite laser, and Ti: Sapphire laser. 16. A laser irradiation apparatus according to claim 9, wherein the laser oscillator is one of a continuous oscillation Ar laser and Kr laser. 17. A laser irradiation apparatus according to claim 9, wherein the laser light is a harmonic wave. 18. A laser irradiation apparatus comprising:a laser oscillator;an optical system to convert a laser light emitted from the laser oscillator so that a beam spot on a surface to be irradiated becomes a line shape or an elliptical shape;a means for deflecting the converted laser light and scanning while keeping a shape of the deflected laser light on the surface to be irradiated constant; anda means for controlling a scanning speed of the converted laser light so as to become higher as the beam spot gets closer to a center of the surface to be irradiated and become lower as the beam spot gets farther from the center of the surface to be irradiated. 19. A laser irradiation apparatus according to claim 18, wherein the means for deflecting the converted laser light and scanning while keeping the shape of the deflected laser light on the surface to be irradiated constant has at least one of a galvanometer mirror, a polygon mirror, an fθ lens and a telecentric fθ lens. 20. A laser irradiation apparatus according to claim 18, wherein the shape of the laser light is kept constant by adjusting a focal point of the laser light on the surface to be irradiated. 21. A laser irradiation apparatus according to claim 18, wherein the scanning speed of the laser light is determined based on an energy distribution obtained by a means for focusing the laser light. 22. A laser irradiation apparatus according to claim 18, wherein the scanning speed of the laser light is controlled to homogenize an irradiation energy on the surface to be irradiated. 23. A laser irradiation apparatus according to claim 18, wherein an irradiation position of the beam spot is controlled to scan a specific position on the surface to be irradiated. 24. A laser irradiation apparatus according to claim 18, wherein the laser oscillator is a continuous oscillation solid laser. 25. A laser irradiation apparatus according to claim 18, wherein the laser oscillator is at least one selected from the group consisting of a continuous oscillation YAG laser, YVO4 laser, YLF laser, YAlO3 laser, Y2O3 laser, Alexandrite laser, and Ti: Sapphire laser. 26. A laser irradiation apparatus according to claim 18, wherein the laser oscillator is one of a continuous oscillation Ar laser and Kr laser. 27. A laser irradiation apparatus according to claim 18, wherein the laser light is a harmonic wave.