TRANSPARENT MATERIAL PROCESSING WITH AN ULTRASHORT PULSE LASER

US 20140004318A1
Filed: 08/26/2013
Published: 01/02/2014
Est. Priority Date: 09/08/2005
Status: Active Grant

First Claim

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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:

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.

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15 Claims

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.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 15)
- - 2. The method as claimed in claim 1, wherein the illuminating is conducted by directing focused light upon said patterns.
  - 3. The method as claimed in claim 1, wherein the illuminating is conducted by directing the light to said patterns via an optical waveguide with an output numerical aperture selected to efficiently illuminate the pattern.
  - 4. The method as claimed in claim 1, wherein said marks comprise discrete points.
  - 5. The method as claimed in claim 1, wherein said marks comprise extended lines.
  - 6. The method as claimed in claim 1, wherein different ones of said patterns are at defined angles relative to one another, and said illuminating is performed by directing focused light to said patterns from plural sources.
  - 7. The method as claimed in claim 6, wherein each one of said plural sources directs light in a direction generally perpendicular to a subset of said marks.
  - 8. The method as claimed in claim 1, wherein said directional light comprises side illumination.
  - 15. The device of claim 14, made by the method of claim 1.

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:
- 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)
- - 10. The system of claim 9, wherein said system is controllable to produce signaling or decorative effects.
  - 11. The system of claim 9, wherein said pulses are generated at a repetition rate in the range from about 100 kHz to about 5 MHz.
  - 12. The system of claim 9, further comprising:
    - an illuminator to provide directional lighting of one or both of said patterns or marks.
  - 13. The system of claim 12, wherein said illuminator comprises an optical waveguide.

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.

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Current Assignee
IMRA America Incorporated (Aisin Corp.)
Original Assignee
IMRA America Incorporated (Aisin Corp.)
Inventors
BOVATSEK, James, Arai, Alan Y., Yoshino, Fumiyo

Granted Patent

US 9,751,154 B2
Time in Patent Office

Days
Field of Search
US Class Current

428/195.1
CPC Class Codes

B23K 2103/50   Inorganic material, e.g. me...

B23K 26/0617   and with spots spaced along...

B23K 26/0624   using ultrashort pulses, i....

B23K 26/244   Overlap seam welding

B23K 26/364   for making a groove or tren...

B23K 26/40   taking account of the prope...

B23K 26/53   for modifying or reforming ...

B28D 5/0011   with preliminary treatment,...

B29C 59/16   by wave energy or particle ...

B29C 65/00   Joining or sealing of prefo...

B29C 65/14   using wave energy , i.e. el...

B29C 65/1616   Near infrared radiation [NI...

B29C 65/1635   at least passing through on...

B29C 65/1638   focusing the laser beam on ...

B29C 65/1658   scanning once, e.g. contour...

B29C 65/1664   making use of several radia...

B29C 65/1674   making use of laser diodes ...

B29C 65/1696   making use of masks

B29C 65/38   Impulse heating

B29C 66/1122   Single lap to lap joints, i...

B29C 66/30223 : said melt initiators being ...

B29C 66/322 : Providing cavities in the j...

B29C 66/3282 : for reinforcing the joint

B29C 66/41 : Joining substantially flat ...

B29C 66/43 : Joining a relatively small ...

B29C 66/71 : characterised by the compos...

B29C 66/73366 : both parts to be joined bei...

B29C 66/7352 : Thickness, e.g. very thin

B29C 66/73921 : characterised by the materi...

B29C 66/836 : Moving relative to and tang...

B29C 66/91641 : the heat or the thermal flu...

B29C 66/919 : characterised by specific t...

B29C 66/934 : by controlling or regulatin...

B29C 66/939 : characterised by specific s...

B29C 66/944 : by controlling or regulatin...

B29C 66/949 : characterised by specific t...

B29K 2033/12 : Polymers of methacrylic aci...

B29K 2069/00 : Use of PC, i.e. polycarbona...

B29K 2995/0026 : Transparent

B81B 1/00 : Devices without movable or ...

B81C 1/00119 : Arrangement of basic struct...

C03B 23/20 : Uniting glass pieces by fus...

C03B 23/203 : Uniting glass sheets C03B23...

C03B 33/0222 : Scoring using a focussed ra...

C03C 23/0025 : by a laser beam

Y10T 428/13 : Hollow or container type ar...

Y10T 428/15 : Sheet, web, or layer weaken...

Y10T 428/24479 : including variation in thic...

Y10T 428/24802 : Discontinuous or differenti...

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TRANSPARENT MATERIAL PROCESSING WITH AN ULTRASHORT PULSE LASER

First Claim

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Abstract

20 Citations

15 Claims

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TRANSPARENT MATERIAL PROCESSING WITH AN ULTRASHORT PULSE LASER

First Claim

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0 Petitions

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Accused Products

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Abstract

20 Citations

15 Claims

Specification

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Solutions

Use Cases

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