Background image security feature

What is claimed is: 1. A security document, comprising: a plastic core and a laser reactive material on the plastic core, the laser reactive material comprises a material that reacts when exposed to radiation from a laser to create a darkening of the material that is contacted by the radiation; printed data; a plurality of spaced darkened spots integrally formed in the laser reactive material as a result of exposing portions of the laser reactive material to radiation from a laser, the spaced darkened spots are darker than adjacent material of the laser reactive material, wherein at least some of the spaced darkened spots and the printed data overlap one another and at least some of the spaced darkened spots do not overlap the printed data; and the spaced darkened spots are arranged to form an image, wherein the spaced darkened spots that overlap with the printed data vary in size from the spaced darkened spots that do not overlap the printed data. 2. The security document according to claim 1 , wherein at least some of the plurality of spaced darkened spots are produced using different laser powers. 3. The security document according to claim 1 , wherein the image is a portrait image. 4. The security document according to claim 1 , wherein the image is alphanumeric text or characters. 5. The security document according to claim 1 , wherein the spaced darkened spots include non-tactile microscopic bumps. 6. The security document according to claim 1 , wherein the spaced darkened spots are at a resolution of between about 80 dots per inch to about 200 dots per inch. 7. A security document, comprising: a plastic core and a laser reactive material on the plastic core, the laser reactive material comprises a material that reacts when exposed to radiation from a laser to create a darkening of the material that is contacted by the radiation; printed data; a plurality of spaced darkened spots integrally formed in the laser reactive material as a result of exposing portions of the laser reactive material to radiation from a laser, the spaced darkened spots are darker than adjacent material of the laser reactive material, wherein at least some of the spaced darkened spots and the printed data overlap one another and at least some of the spaced darkened spots do not overlap the printed data; and the spaced darkened spots are arranged to form an image, wherein the spaced darkened spots include tactile microscopic bumps. 8. A security document, comprising: printed data; a plurality of spaced darkened spots integrally formed in a layer of the security document, the spaced darkened spots are darker than material of the layer adjacent to the spaced darkened spots, wherein at least some of the spaced darkened spots and the printed data overlap one another and at least some of the spaced darkened spots do not overlap the printed data; and the spaced darkened spots are arranged to form an image, wherein the image is of an intended holder of the security document or of data that is personal to the intended holder of the security document, wherein the spaced darkened spots that overlap with the printed data vary in size from the spaced darkened spots that do not overlap the printed data. 9. The security document according to claim 8 , wherein the security document includes a core and the layer disposed on the core; the layer comprises a laser reactive material, the laser reactive material comprises a material that reacts when exposed to radiation from a laser to create a darkening of the material that is contacted by the radiation; the plurality of spaced darkened spots being integrally formed in the laser reactive material. 10. The security document according to claim 8 , wherein the plurality of spaced darkened spots are produced using a laser. 11. The security document according to claim 10 , wherein at least some of the plurality of spaced darkened spots are produced using different laser powers. 12. The security document according to claim 8 , wherein the spaced darkened spots include non-tactile microscopic bumps. 13. The security document according to claim 8 , wherein the spaced darkened spots are at a resolution of between about 80 dots per inch to about 200 dots per inch. 14. A security document, comprising: printed data; a plurality of spaced darkened spots integrally formed in a layer of the security document, the spaced darkened spots are darker than material of the layer adjacent to the spaced darkened spots, wherein at least some of the spaced darkened spots and the printed data overlap one another and at least some of the spaced darkened spots do not overlap the printed data; and the spaced darkened spots are arranged to form an image, wherein the image is of an intended holder of the security document or of data that is personal to the intended holder of the security document, wherein the spaced darkened spots include tactile microscopic bumps. 15. A security document, comprising: printed data; a plurality of spaced darkened spots integrally formed in a layer of the security document, the spaced darkened spots are darker than material of the layer adjacent to the spaced darkened spots, wherein at least some of the spaced darkened spots and the printed data overlap one another and at least some of the spaced darkened spots do not overlap the printed data; and the spaced darkened spots are arranged to form an image, and the spaced darkened spots are at a resolution of between about 80 dots per inch to about 200 dots per inch; wherein the spaced darkened spots that overlap with the printed data vary in size from the spaced darkened spots that do not overlap the printed data. 16. The security document according to claim 15 , wherein the security document includes a core and the layer disposed on the core; the layer comprises a laser reactive material, the laser reactive material comprises a material that reacts when exposed to radiation from a laser to create a darkening of the material that is contacted by the radiation; the plurality of spaced darkened spots being integrally formed in the laser reactive material.