TRANSPARENT MATERIAL PROCESSING WITH AN ULTRASHORT PULSE LASER
First Claim
1. A laser-based method for generating visible patterns of optical defects comprising marks formed below the surface of a transparent material, said patterns having controllable contrast and visibility, said method comprising:
- forming a plurality of marks at different depths within the material using tightly focused ultrashort pulsed laser outputs, said tightly focused outputs having controllably varied focal points and sufficient fluence so as to create regions of material modification at said different depths below said surface, such that marks at different depths are arranged in such a way as to prevent shadowing where a first mark prevents directional illumination from impinging a second mark, and wherein said marks are sufficiently small and smooth to decrease visibility under ambient light while increasing pattern resolution;
controlling the roughness of said patterns by controlling parameters of said laser; and
illuminating said marks using directional illumination,wherein said patterns are clearly visible to the unaided eye when illuminated with said directional illumination, and substantially invisible to the unaided eye under ambient light when said illuminating is suspended.
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Abstract
Methods for ultrashort pulse laser processing of optically transparent materials. A method for scribing transparent materials uses ultrashort laser pulses to create multiple scribe features with a single pass of the laser beam across the material, with at least one of the scribe features being formed below the surface of the material. This enables clean breaking of transparent materials at a higher speed than conventional techniques. Slightly modifying the ultrashort pulse laser processing conditions produces sub-surface marks. When properly arranged, these marks are clearly visible with side-illumination and not clearly visible without side-illumination. In addition, a method for welding transparent materials uses ultrashort laser pulses to create a bond through localized heating. The ultrashort pulse duration causes nonlinear absorption of the laser radiation, and the high repetition rate of the laser causes pulse-to-pulse accumulation of heat within the materials. The laser is focused near the interface of the materials, generating a high energy fluence at the region to be welded. This minimizes damage to the rest of the material and enables fine weld lines.
20 Citations
15 Claims
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1. A laser-based method for generating visible patterns of optical defects comprising marks formed below the surface of a transparent material, said patterns having controllable contrast and visibility, said method comprising:
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forming a plurality of marks at different depths within the material using tightly focused ultrashort pulsed laser outputs, said tightly focused outputs having controllably varied focal points and sufficient fluence so as to create regions of material modification at said different depths below said surface, such that marks at different depths are arranged in such a way as to prevent shadowing where a first mark prevents directional illumination from impinging a second mark, and wherein said marks are sufficiently small and smooth to decrease visibility under ambient light while increasing pattern resolution; controlling the roughness of said patterns by controlling parameters of said laser; and illuminating said marks using directional illumination, wherein said patterns are clearly visible to the unaided eye when illuminated with said directional illumination, and substantially invisible to the unaided eye under ambient light when said illuminating is suspended. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 15)
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9. A laser-based system for generating visible patterns of optical defects comprising marks below the surface of a transparent material, said patterns having controllable contrast and visibility, said system comprising:
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an ultrashort pulse laser that generates optical pulses; an optical system for focusing laser pulses emitted from said laser into tightly focused spots below said surface; a positioning stage assembly for three-dimensional positioning of said substrate relative to said laser pulses; and a controller coupled to said laser, optical system, and said positioning means for controllably delivering said tightly focused spots to form optical defects comprising marks at different depths below said surface, such that said patterns are clearly visible to the unaided eye when illuminated with directional illumination, and substantially invisible to the unaided eye under ambient light when said directional illumination is suspended, wherein said system forms marks with said tightly focused spots at different depths below said surface, and arranged in such a way as to prevent shadowing where a first mark prevents directional illumination from impinging upon a second mark, and wherein said marks are sufficiently small and smooth to decrease visibility under ambient light while increasing pattern resolution. - View Dependent Claims (10, 11, 12, 13)
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14. A transparent device having internal marks at different depths, said marks arranged in such a way as to prevent shadowing where a first mark prevents directional illumination from impinging upon a second mark, and wherein said marks are sufficiently small and smooth to decrease visibility under ambient light while increasing pattern resolution.
Specification