Claims
- 1. Laser apparatus comprising a laser source which produces a beam of coherent radiation having a substantially circular outline, and a stationary optical system arranged to disperse and thereby spread said beam in a controlled manner into an elongated elliptical band of radiation having substantially uniform energy density across the expanded dimension of said beam, said optical system including at least one deflecting means arranged to intercept and deflect said beam across one tranverse dimension so that said beam is converted into a spread band of substantially uniform radiation having an elongated elliptical cross-section of greater area than the cross-section of the impinging circular beam of radiation.
- 2. Laser apparatus according to claim 1 in which at least one deflecting means consists of a substantially cylindrical convex reflecting surface.
- 3. Laser apparatus according to claim 2 in which said substantially cylindrical convex reflecting surface is curved with relation to the energy distribution within the impinging beam of radiation so as to deflect the beam into an elongated elliptical spread band of radiation having a substantially uniform distribution of energy across its longer transverse dimension.
- 4. Laser apparatus according to claim 1 in which at least one deflecting means is mounted on a spherically rotatable base such that the direction of the deflected beam of radiation may be adjusted while causing the impinging beam of radiation to strike said deflecting means at substantially the same location.
- 5. Laser apparatus according to claim 1 in which a second deflecting means is provided to intercept and deflect said elongated elliptical band of radiation across its shorter transverse dimension and thereby convert said band into a spread band of radiation having a substantially rectangular cross-section of greater area than the cross-section of the initial beam of radiation.
- 6. A method for accelerating the progress of chemical reactions comprising the steps of
- (1) producing a beam of coherent radiation having a substantially circular outline,
- (2) deflecting said beam of coherent radiation along one transverse dimension into a spread band of radiation having an elongated elliptical outline, and
- (3) passing an uncured coated surface beneath said spread band of radiation at a speed which results in an accumulation of radiation sufficient to substantially cure at least the surface of the coating without damaging the coating or the material on which the coating has been deposited.
- 7. The method of claim 6 in which the frequency of said beam of coherent radiation has been particularly selected in relation to the composition of the coating so as to accelerate the curing operation.
- 8. The method of claim 6 wherein the chemical reaction involves the evaporation of a solvent.
- 9. The method of claim 6 wherein the chemical reaction involves the drying of ink in printing operations.
- 10. Laser apparatus according to claim 1 in which at least one deflecting means consists of a substantially elliptical convex reflecting surface.
- 11. Laser apparatus according to claim 10 in which said substantially elliptical convex reflecting surface is curved with relation to the energy distribution within the impinging beam of radiation so as to deflect the beam into an elongated elliptical spread band of radiation having a substantially uniform distribution of energy across its longer transverse dimension.
GOVERNMENT LICENSE
The invention described herein may be manufactured and used by or for the government of the United States of America for governmental purposes without the payment of any royalties thereon or therefore.
US Referenced Citations (7)