DE102005035896A1 - Method and device for structuring at least one region of a solid surface uses a nano- to femto-second pulsed laser to form a grid structure with a polarized beam and relative movement to the surface - Google Patents

Abstract

A method of structuring at least one region of a solid surface (9) comprises using a nano- to femto-second pulsed laser (1) to produced a nanometer grid structure (LIPPS) by means of a polarized (4) laser beam with a relative movement between the plane of polarization and the object surface to produce the grid. Independent claims are also included for the following: (A) A unit with a laser as above; (B) A further unit for the above; and A method of laser modification of solid surfaces.

Description

The The invention relates to methods and apparatus for generating different color or holographic surface structures at least one surface area of objects and uses of laser radiation to produce articles with such surface structures.

to Improvement of counterfeit security or to increase the expressiveness of objects with graphic or pictorial representations are among others used holographic illustrations. Holography is a procedure Image recording and image reproduction with coherent light, the reproduction spatial Images possible. To do this, the original lightwave field is diffracted by an interference pattern reconstructed. For this purpose, an object with light becomes a coherent light source illuminated and the object by reflection, transmission, scattering or diffraction changed Light with a coherent Superimposed on the comparative wave. The resulting interference wave field becomes a two-dimensional one Detail as intensity image recorded on a plate of a photopolymer. Basis is a real mapped object.

Of the in the claims 1, 7 and 9 indicated invention is the object of at least objects partially with a surface structure to provide that structure from different viewing angles than different colored pattern is visible.

These Task is with the features listed in the claims 1, 7 and 9 solved.

The Methods and apparatus for producing different colors or holographically acting surface structures on at least a surface area of objects are characterized in particular by the fact that the structured surface area of the object as different colors or holographic acting pattern is visible. This is the surface area of the article preferably with a moving femtosecond laser radiation (hereinafter referred to as fs laser radiation) so charged, that due to the acting and moving fs laser radiation itself self-organizing, grave-shaped and nanostructures acting as optical lattice (ripple structures) form.

These Ripple structures are formed by irradiation of solid surfaces fs laser radiation corresponding energy fluence. The ripples form is preferably perpendicular to the electric field strength vector and thus perpendicular to the polarization direction of the fs laser radiation out. For the same femtosecond laser parameters, grave-shaped depressions are formed with the same geometric dimensions and distances. This will be advantageous Interference grating structures with grating periods in the visible wavelength range generated.

Of the structured surface area is at least a flat individual structure, one of several individual structures composite structure or a combination of composite structures. As a result, different colors or holographic effect Illustrations such as codes, patterns, lettering, logos or images Arrangement of with one or more different polarization directions generated individual structures as basic forms of different geometry for example triangles, squares, rectangles, hexagons, circles and Ellipses with ripple structures can be realized.

Of the An article with at least one such surface area is thus coded in particular. This results in the most varied applications also with regard to a forgery security of different objects. With that you can objects simple and economical Cheap be coded.

advantageous Embodiments of the invention are in the claims 2 to 6 and 8 indicated.

The Training according to claim 2, wherein the polarization direction the laser beam perpendicular to or in the direction of movement or under one given while the movement either held constant or varied angle relative set to the direction of movement or controlled by a controller will, leads to the most varied also wavy ripple structures and thus the most diverse Colors at the same and different viewing angles.

at spaced line movements of the laser radiation and right angle between polarization and direction of movement results advantageously a uniform color of the irradiated area of the surface of the Object at the same viewing angle. When changed Viewing angle changes also the color.

With the same directions of polarization of the laser radiation and the movement of the laser beam areas of uniform color at the same viewing angle on the object produced who the.

The Training according to claim 3, wherein a means for changing the polarization in the beam path of the laser radiation, the polarization direction the laser beam is set stepwise or continuously or over a Control is controlled leads depending on the movement of the laser beam to lines, rings or spirals from successively following spectral colors.

The Training according to claim 5, wherein the generation of the structuring surface areas the laser beam so guided will that rectilinear, circular, arcuate, ellipsoidal or spiral Railways arise, leads to the most varied surface areas of the object. With a variety of combinations and juxtapositions can diverse Symbols, logos and pictorial representations individually or in combinations will be realized.

advantageously, is the structured according to the embodiment of claim 6 Surface area the item is a code or the item is a coded item. In particular, in the last variant of the object is a metallic Foil connected to a wide variety of other objects can be.

Of the The subject is according to the embodiment of claim 8 a Object with at least one code, pattern, lettering, logo and / or image each individually or in at least one combination or with the structured surface area a forming tool for the transfer of the structured surface area on other objects.

One embodiment The invention is shown in the drawings and will be described below described in more detail.

It demonstrate:

1 a grave-shaped nanostructure (ripple structure) acting as an optical lattice and self-organizing by the acting and moving fs laser radiation

2 a pattern of ripple structures at different illumination angles.

In the embodiment Below, a method and a device for generating of differently colored or holographic surface structures on at least one surface area of objects and a use of laser radiation for the manufacture of articles with such surface structures closer together explained.

For the production of objects with at least one visible surface structure which is changed at least in regions, a surface region of the article is subjected to a moving fs laser radiation such that self-organizing, trench-shaped nanostructures as an optical lattice with predetermined, in the region of Wavelengths of visible light, lattice constants and grid depth on the given surface area result. Such nanostructures are also known as ripple structures (illustration in US Pat 1 ). For this purpose, a laser-beam coupling device of a femtosecond laser (fs laser) or a laser beam deflecting device is arranged at a distance from the object, so that the fs laser beams can reach the surface of the object. The fs laser has a mean wavelength of 780 nm. For the realization of planar figures (representations in the 2 ) on the surface area, the laser radiation is guided over this surface area of the object. For this purpose, either a device which decouples the laser beams of the fs laser or the laser beams of the fs laser deflecting device is arranged and moved at a distance from the object. The device decoupling the laser beams is coupled to an x, y positioning system for this purpose. The laser beam deflecting device is a scanner mirror. The laser beams of the fs laser are guided over the area of the surface of the object in such a way that a flat figure or at least one character arises in each case individually, several times or in combinations. Plane figures are also polygons, circles, ellipses and spirals also composed as pictorial representations. Signs are in particular letters or known special characters. For this purpose, the respective drives of the devices and the fs laser are preferably interconnected with a controller as a control device as a computer. Thus, the fs laser beams can be guided for a plurality of distances rectilinearly, circularly, arcuately or elliptically, or else spirally over at least the area the surface of the object.

In a first embodiment of the embodiment, the polarization direction of the fs laser radiation is at an angle to the direction of movement of the fs laser beam. The angle is either 90 ° or a device for changing the polarization is located in the beam path of the laser radiation. In the second case, either other angles can be entered or angles are changed continuously or stepwise depending on the movement of the laser beams. The device for changing the polarization than is interconnected with the control device.

In a second embodiment of the embodiment are the directions of polarization of the fs laser radiation and the Movement of the fs laser beam alike.

In a third embodiment of the embodiment can also figures and / or characters by combining the characteristics of first embodiment and the second embodiment the surface of the object are generated, so the most diverse Representations are feasible.

Result is an article with at least one at least partially changed and thus different color or holographic surface structure, which can also be used as a forming tool. The item points thus advantageously a code or is itself a coded one Object. In the latter case, this can be connected to other objects or be integrated into it. Instead of the code, the objects with patterns, lettering, Logos or images using fs laser radiation.

Claims (9)

A method for producing differently colored or holographically acting surface structures on at least one surface area of objects, characterized in that the surface area of the object is exposed to laser beams such that the ripple structures formed on solid surfaces during the laser beam exposure, in particular in femtosecond laser radiation as self-organizing trench-shaped nanostructures represent an optical grating with predetermined, lying in the wavelengths of visible light, lattice constant and grid depth on the given surface area, and that the surface area at least one planar figure or at least one character each individually, multiply or in at least one Combination is. Method according to claim 1, characterized that the polarization direction of the laser beam perpendicular to or in the direction of movement or under a predetermined, during the Movement optionally held constant or varied angle relative set to the direction of movement or controlled by a controller becomes. Method according to claim 1, characterized that over a body for change the polarization in the beam path of the laser radiation, the polarization direction the laser beam is set stepwise or continuously or over a Control is controlled. Method according to one of the claims 1 to 3, characterized in that for generating the to be structured surface areas the laser beam is guided in such a way with a control that rectilinear, circular, arcuate, ellipsoidal or spiral Railways are created. Method according to claim 1, characterized that the structured surface area at least one flat individual structure, one of several individual structures composite structure or a combination of composite Structures is. Method according to claim 5, characterized in that that the structured surface area at least one code, pattern, lettering, logo and / or image respectively individually or in at least one combination. Device for the production of different colors or holographically acting surface structures on at least a surface area of objects with the method according to claim 1, characterized that's an animated guided laser beam extracting device of a laser or a moving one Laserstrahlablenkende device spaced from the surface of the Object is arranged so that in the laser beam exposure, especially in the femtosecond laser beam exposure, on the surface area of solids resulting ripple structures as self-organizing trench-shaped nanostructures an optical Lattice with predetermined, in the range of wavelengths of visible light lying, lattice constants and grid groove depth on the given surface area represent, and that the surface area at least a flat figure or at least one character each individually, several times or in at least one combination. Device according to claim 7, characterized in that that the object with the structured surface area an object with at least one code, pattern, lettering, logo and / or Image is individually or in at least one combination or that the object with the structured surface area a forming tool for the transfer of the structured surface area on other objects is. Use of laser radiation for the manufacture ment of objects according to claim 1, characterized in that the ripple structures formed on solid surfaces during the laser beam exposure, in particular femtosecond laser beam action, as self-organizing trench-shaped nanostructures form an optical grating with predetermined lattice constants and in the range of the wavelengths of visible light Represent grid groove depth on a given surface area and the resulting structures for the production of articles with at least one color different or holographically acting surface structure can be used.