Patents by Inventor Gregory R. Jordan
Gregory R. Jordan has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11446950Abstract: An optical device that produces flicker-like optical effects is provided. The optical device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: GrantFiled: January 25, 2021Date of Patent: September 20, 2022Assignee: Visual Physics, LLCInventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 11400746Abstract: An optical device that produces flicker-like optical effects is provided. The optical device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: GrantFiled: January 25, 2021Date of Patent: August 2, 2022Assignee: Visual Physics, LLCInventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Publication number: 20210146711Abstract: An optical device that produces flicker-like optical effects is provided. The optical device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: ApplicationFiled: January 25, 2021Publication date: May 20, 2021Inventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 10974535Abstract: An optical device that produces flicker-like optical effects is provided. The inventive device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: GrantFiled: October 8, 2019Date of Patent: April 13, 2021Assignee: Visual Physics, LLCInventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 10899120Abstract: A process for transferring microstructures to a flexible or rigid final substrate that offers advantages in both speed and precision is provided. The inventive process involves subjecting a transfer film in a continuous roll-to-roll process to the following operations: either forming microstructures on, or transferring microstructures to a surface of the transfer film; and then transferring the microstructures from the transfer film onto a surface of the final substrate. The microstructures are single or multi-layer structures that are made up of: voids in a substantially planar surface, the voids optionally filled or coated with another material; raised areas in a substantially planar surface; or combinations thereof.Type: GrantFiled: November 23, 2018Date of Patent: January 26, 2021Assignee: Visual Physics, LLCInventors: Jonathan D. Gosnell, Gregory R. Jordan, Caroline B. Kennedy
-
Patent number: 10899159Abstract: An optical device that produces flicker-like optical effects is provided. The inventive device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: GrantFiled: October 8, 2019Date of Patent: January 26, 2021Assignee: Visual Physics, LLCInventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 10890692Abstract: An optionally transferable optical system with a reduced thickness is provided. The inventive optical system is basically made up of a synthetic image presentation system in which one or more arrangements of structured image icons are substantially in contact with, but not completely embedded within, one or more arrangements of focusing elements. The focusing element and image icon arrangements cooperate to form at least one synthetic image. By way of the subject invention, the requirement for an optical spacer to provide the necessary focal distance between the focusing elements and their associated image icon(s) is removed. As a result, overall system thicknesses are reduced, suitability as a surface-applied authentication system is enabled, and tamper resistance is improved.Type: GrantFiled: August 17, 2012Date of Patent: January 12, 2021Assignee: Visual Physics, LLCInventors: Gregory R. Jordan, Samuel M. Cape, Scott K. Palm, Jonathan D. Gosnell, Caroline B. Kennedy
-
Patent number: 10766292Abstract: An optical security device suitable for securing or authenticating high security or high value articles of manufacture when affixed thereto, is provided. The inventive security device produces optically variable effects when viewed from varying points of view and is made up of a microstructured layer having image icon elements that have at least one pigmented material. The microstructured layer is arranged relative to an arrangement of focusing elements such that at least portions of the image icon elements are observable through at least portions of the arrangement of focusing elements, thereby providing at least one synthetic image that demonstrates a color-transition effect as points of view from which the optical security device is viewed are changed.Type: GrantFiled: May 30, 2018Date of Patent: September 8, 2020Assignee: Crane & Co., Inc.Inventors: Benjamin E. Bleiman, Samuel M. Cape, Paul F. Cote, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 10703126Abstract: An optical security device suitable for securing or authenticating high security or high value articles of manufacture when affixed thereto, is provided. The inventive security device produces optically variable effects when viewed from varying points of view and is made up of a microstructured layer having image icon elements that have at least one pigmented material. The microstructured layer is arranged relative to an arrangement of focusing elements such that at least portions of the image icon elements are observable through at least portions of the arrangement of focusing elements, thereby providing at least one synthetic image that demonstrates a color-transition effect as points of view from which the optical security device is viewed are changed.Type: GrantFiled: May 30, 2018Date of Patent: July 7, 2020Assignee: Crane & Co., Inc.Inventors: Benjamin E. Bleiman, Samuel M. Cape, Paul F. Cote, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Publication number: 20200039277Abstract: An optical device that produces flicker-like optical effects is provided. The inventive device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: ApplicationFiled: October 8, 2019Publication date: February 6, 2020Inventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 10434812Abstract: An optical device that produces flicker-like optical effects is provided. The inventive device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: GrantFiled: March 27, 2015Date of Patent: October 8, 2019Assignee: Visual Physics, LLCInventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Publication number: 20190105887Abstract: A process for transferring microstructures to a flexible or rigid final substrate that offers advantages in both speed and precision is provided. The inventive process involves subjecting a transfer film in a continuous roll-to-roll process to the following operations: either forming microstructures on, or transferring microstructures to a surface of the transfer film; and then transferring the microstructures from the transfer film onto a surface of the final substrate. The microstructures are single or multi-layer structures that are made up of: voids in a substantially planar surface, the voids optionally filled or coated with another material; raised areas in a substantially planar surface; or combinations thereof.Type: ApplicationFiled: November 23, 2018Publication date: April 11, 2019Applicant: Visual Physics, LLCInventors: Jonathan D. Gosnell, Gregory R. Jordan, Caroline B. Kennedy
-
Publication number: 20190009608Abstract: Moiré-type magnification systems are disclosed. The moiré magnification systems can comprise a surface and a periodic array of image relief microstructures having a periodic surface curvature disposed on or within the surface. The image relief microstructures can have a first image repeat period along a first image reference axis within the array, and the periodic surface curvature can have a first curvature repeat period along a first curvature reference axis within the array. Transmission of light through the array, reflection of light from the array, or a combination thereof forms a magnified moiré image.Type: ApplicationFiled: January 11, 2018Publication date: January 10, 2019Inventor: Gregory R. Jordan
-
Patent number: 10173405Abstract: A process and a transfer film for transferring microstructures to a flexible or rigid final substrate that offers advantages in both speed and precision is provided. The inventive process involves subjecting a transfer film in a continuous roll-to-roll process to the following operations: either forming microstructures on, or transferring microstructures to a surface of the transfer film; and then transferring the microstructures from the transfer film onto a surface of the final substrate. The microstructures are single or multi-layer structures that are made up of: voids in a substantially planar surface, the voids optionally filled or coated with another material; raised areas in a substantially planar surface; or combinations thereof.Type: GrantFiled: August 17, 2012Date of Patent: January 8, 2019Assignee: Visual Physics, LLCInventors: Jonathan D. Gosnell, Gregory R. Jordan, Caroline B. Kennedy
-
Publication number: 20180272788Abstract: An optical security device suitable for securing or authenticating high security or high value articles of manufacture when affixed thereto, is provided. The inventive security device produces optically variable effects when viewed from varying points of view and is made up of a microstructured layer having image icon elements that have at least one pigmented material. The microstructured layer is arranged relative to an arrangement of focusing elements such that at least portions of the image icon elements are observable through at least portions of the arrangement of focusing elements, thereby providing at least one synthetic image that demonstrates a color-transition effect as points of view from which the optical security device is viewed are changed.Type: ApplicationFiled: May 30, 2018Publication date: September 27, 2018Applicant: Crane & Co., Inc.Inventors: Benjamin E. Bleiman, Samuel M. Cape, Paul F. Cote, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Patent number: 9873281Abstract: A single layer image projection system that is made up of an arrangement of optionally reflective arcuate elements having an upper arcuate surface, a lower surface, and an arcuate area bounded by the upper arcuate and lower surfaces, and an optionally reflective pattern of image relief microstructures disposed on or within at least some of the upper arcuate surfaces of the arcuate elements, is provided. The arrangement of optionally reflective arcuate elements and the optionally reflective pattern of image relief microstructures are in a single layer and interact to project one or more images. For an upper arcuate surface with convex surface curvature, the image relief microstructures extend downwardly from this surface terminating within the arcuate area, and for an upper arcuate surface with concave surface curvature, the image relief microstructures extend upwardly from this surface terminating within an area defined by the curvature of the upper arcuate surface.Type: GrantFiled: December 18, 2015Date of Patent: January 23, 2018Assignee: Visual Physics, LLCInventors: Samuel M. Cape, Richard A. Steenblik, Gregory R. Jordan
-
Publication number: 20170173990Abstract: An optical device that produces flicker-like optical effects is provided. The inventive device employs directionally cured image icons. Specifically, the optical device is made up of at least one arrangement of image icons formed from one or more cured pigmented materials, and at least one arrangement of optionally embedded focusing elements positioned to form one or more synthetic images of at least a portion of the arrangement(s) of image icons. Some or all of the pigmented material(s) is cured using collimated light directed through the focusing elements toward the arrangement(s) of image icons at one or more angles relative to a surface of the optical device to form directionally cured image icons. The synthetic image(s) of the directionally cured image icons is viewable at the cure angle(s) and therefore visually appears and disappears, or turns on and off, as the viewing angle of the device moves through the cure angle(s).Type: ApplicationFiled: March 27, 2015Publication date: June 22, 2017Applicant: VISUAL PHYSICS, LLCInventors: Samuel M. Cape, Jonathan D. Gosnell, Gregory R. Jordan, Scott K. Palm
-
Publication number: 20170015129Abstract: Moiré-type magnification systems are disclosed. The moiré magnification systems can comprise a surface and a periodic array of image relief microstructures having a periodic surface curvature disposed on or within the surface. The image relief microstructures can have a first image repeat period along a first image reference axis within the array, and the periodic surface curvature can have a first curvature repeat period along a first curvature reference axis within the array. Transmission of light through the array, reflection of light from the array, or a combination thereof forms a magnified moiré image.Type: ApplicationFiled: July 21, 2016Publication date: January 19, 2017Inventor: Gregory R. Jordan
-
Publication number: 20160325577Abstract: Moiré-type magnification systems are disclosed. The moiré magnification systems can comprise a surface and a periodic array of image relief microstructures having a periodic surface curvature disposed on or within the surface. The image relief microstructures can have a first image repeat period along a first image reference axis within the array, and the periodic surface curvature can have a first curvature repeat period along a first curvature reference axis within the array. Transmission of light through the array, reflection of light from the array, or a combination thereof forms a magnified moiré image.Type: ApplicationFiled: July 21, 2016Publication date: November 10, 2016Inventor: Gregory R. Jordan
-
Patent number: 9333787Abstract: An optical device projecting one or more synthetically magnified images that has been laser marked with one or more static two dimensional (2D) images is provided. The static 2D image(s) laser marked on or within this device and the synthetically magnified image(s) projected by this device help determine the authenticity of a document (e.g., passport data page) or product that employs it. Several embodiments of the inventive device also offer increased resistance to tampering or alteration and wear.Type: GrantFiled: May 2, 2014Date of Patent: May 10, 2016Assignees: Visual Physics, LLC, Crane & Co., Inc., Crane ABInventors: Samuel M. Cape, Jonathan D. Gosnell, Kaj Markkus Helminen, Gregory R. Jordan, Scott K. Palm, Giles D. Prett, Timothy W. Schneider, Anthony J. Zucchero