Patents by Inventor Zhisheng Yun
Zhisheng Yun 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).
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Patent number: 11619823Abstract: An optical system for displaying a magnified virtual image of an image emitted by a display to a viewer. The optical system includes first and second lenses facing each other and spaced apart by an air gap to define an optical cavity therebetween. The optical cavity includes a reflective polarizer disposed on a major surface of the first lens, and an optical stack disposed on a major surface of the second lens. The optical stack includes an absorbing polarizer, a first retarder layer, a partial reflector, and a second retarder layer disposed between the absorbing polarizer and the partial reflector. The first and/or second lenses is/are birefringent lens provided outside the optical cavity to control polarization.Type: GrantFiled: July 2, 2020Date of Patent: April 4, 2023Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: John D. Le, Zhisheng Yun
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Publication number: 20230089314Abstract: A curved reflective has at least one location having a radius of curvature in a range from about 6 mm to about 1000 mm. Each location on the reflective polarizer has a maximum reflectance greater than about 70% for a block polarization state, a maximum transmittance greater than about 70% for an orthogonal pass polarization state, and a minimum transmittance for the block polarization state. For a continuous first portion of the reflective polarizer extending between different first and second edges of the reflective polarizer and defining disjoint second and third portions of the reflective polarizer, the minimum transmittance of the reflective polarizer for the block polarization state is higher at each location in at least 70% of the first portion than at each location in at least 70% of the second portion and at each location in at least 70% of the third portion.Type: ApplicationFiled: November 30, 2022Publication date: March 23, 2023Inventors: Robert M. Jennings, Gregg A. Ambur, Jo A. Etter, Benjamin G. Sonnek, Zhisheng Yun
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Publication number: 20230084541Abstract: An optical assembly to enable distortion compensation and enhanced image clarity is provided. The optical assembly may include an optical stack, such as pancake optics. The optical assembly may also include at least two optical elements. The optical assembly may further include at least one spatially located, free form optical component between the at least two optical elements, wherein the spatially located, free form optical component provides distortion compensation and enhanced image clarity. In some examples, the spatially located, free form optical component may have a plurality of regions having different diffraction designs. In some examples, , the spatially located, free form optical component may also utilize a curvature (i.e., may have a curved surface) to implement a phase change profile that may provide distortion compensation.Type: ApplicationFiled: September 16, 2021Publication date: March 16, 2023Applicant: Meta Platforms Technologies, LLCInventors: Zhisheng YUN, Brendan HAMEL-BISSELL, Sascha HALLSTEIN, Pavel TROCHTCHANOVITCH, Hyunmin SONG
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Patent number: 11579452Abstract: Projection systems and components thereof are described that are well suited to miniaturization.Type: GrantFiled: February 16, 2021Date of Patent: February 14, 2023Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Andrew J. Ouderkirk, Erin A. McDowell, Zhisheng Yun
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Publication number: 20230024433Abstract: According to examples, a system for designing optical components to provide passive athermalization and aberration correction is described. The system may include a processor and a memory storing instructions. The processor, when executing the instructions, may cause the system to select one or more optical elements to be included in the optical component based on the received design specifications, select one or more optical element configurations based on the selected one or more optical elements and implement an optimization function to optimize the selected one or more optical element configurations. The processor, when executing the instructions, may then determine if the one or more optical element configurations meet one or more initial specifications, enable one or more adjustment(s) to the one or more optical element configurations and determine if an optical element configuration meet one or more additional specifications.Type: ApplicationFiled: July 19, 2021Publication date: January 26, 2023Applicant: Meta Platforms Technologies, LLCInventors: Zhisheng YUN, Byron TAYLOR, Tamer ELAZHARY, Ning Yueng CHAN, Fei LIU
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Publication number: 20230003929Abstract: A reflective polarizing imaging lens includes at least one optical film having an active area that is curved in two orthogonal directions. Edges of the optical film are arranged to form seams between segments of the optical film in the active area of the reflective polarizing imaging lens.Type: ApplicationFiled: September 7, 2022Publication date: January 5, 2023Inventors: Robert M. Jennings, Jo A. Etter, Susan L. Kent, Erin A. McDowell, Timothy L. Wong, Zhisheng Yun
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Patent number: 11543572Abstract: Shaped optical films and methods of shaping optical films are described. The method includes securing at least portions of a perimeter of the optical film in a first plane so that the secured portions do not move relative to one another; and stretching the optical film by displacing a portion of the optical film along at least a first direction perpendicular to the first plane such that one of a radial and circumferential stretching of the optical film is substantially constant from a center to the perimeter of the optical film, and the other one of the radial and circumferential stretching of the optical film substantially changes from the center to the perimeter of the optical film. The optical film is a reflective polarizer including a plurality of alternating polymeric layers.Type: GrantFiled: September 28, 2018Date of Patent: January 3, 2023Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Robert M. Jennings, Gregg A. Ambur, Jo A. Etter, Benjamin G. Sonnek, Zhisheng Yun
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Patent number: 11493777Abstract: An optical stack including a first reflective polarizer adhered to a second reflective polarizer is described. For normally incident light and each wavelength in a same predetermined wavelength range, each reflective polarizer transmits at least 80% of light polarized along a pass axis of the reflective polarizer and reflects at least 90% of light polarized along an orthogonal block axis of the reflective polarizer. Each reflective polarizer includes a plurality of polymeric interference layers reflecting and transmitting light primarily by optical interference in the predetermined wavelength range. A separation between the two polymeric interference layers in the plurality of polymeric interference layers farthest from each other are d1 and d2 for the respective first and second reflective polarizers, d1 is at least 20% less than d2. Polarizing beam splitters including the optical stack and optical systems including the polarizing beam splitter are described.Type: GrantFiled: December 13, 2018Date of Patent: November 8, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Zhisheng Yun, John D. Le, Timothy J. Nevitt, Susan L. Kent
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Publication number: 20220326523Abstract: An optical system for displaying first and second images to a viewer is provided. A reflective polarizer is disposed between the second display and the viewer and is oriented obliquely relative to the first display. An optical stack including a partial reflector and a retarder layer is disposed between the reflective polarizer and the second display. The reflective polarizer reflects at least 70% of the incident light having a first polarization state and transmits at least 60% of the incident light having an orthogonal second polarization state. The partial reflector reflects at least 70% of the incident light for each of the polarization states. For each of the first and second polarization states and for each of a blue-green wavelength and a green-red wavelength the reflective polarizer transmits at east 70% of the incident light and the partial reflector transmits at least 60% of the incident light.Type: ApplicationFiled: September 9, 2020Publication date: October 13, 2022Inventors: John D. Le, Timothy L. Wong, Timothy J. Nevitt, Zhisheng Yun
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Patent number: 11467329Abstract: A reflective polarizing imaging lens includes at least one optical film having an active area that is curved in two orthogonal directions. Edges of the optical film are arranged to form seams between segments of the optical film in the active area of the reflective polarizing imaging lens.Type: GrantFiled: February 15, 2019Date of Patent: October 11, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Robert M. Jennings, Jo A. Etter, Susan L. Kent, Erin A. McDowell, Timothy L. Wong, Zhisheng Yun
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Patent number: 11435514Abstract: An optical element includes an optical surface configured to receive light at a predetermined wavelength in a range from about 400 nm to about 1000 nm. The optical surface is defined by a vertical axis and a horizontal axis defining four Cartesian quadrants sequentially numbered in a counter-clockwise direction. A first longitudinal section of the optical surface is centered on the vertical axis and a second longitudinal section of the optical surface is centered on the horizontal axis. The first and second longitudinal section each extend across opposite edges of the optical surface and have a same substantially uniform retardance for substantially normally incident light. The optical element includes four discrete retarder sections. Each retarder section is disposed on a respective Cartesian quadrant of the optical surface and has a retardance difference from the substantially uniform retardance of the optical surface that is greater than zero.Type: GrantFiled: October 19, 2018Date of Patent: September 6, 2022Assignee: 3M Innovative Properties CompanyInventors: Zhisheng Yun, Michael L. Steiner, Jo A. Etter, Timothy L. Wong, Gilles J. Benoit, John D. Le, Erin A. McDowell, Susan L. Kent
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Publication number: 20220270645Abstract: A system includes a polarization selective optical element configured to diffract a light reflected by an object into a plurality of signal lights. The system also includes at least one optical sensor configured to receive the signal lights and generate a plurality of tracking signals for tracking the object.Type: ApplicationFiled: December 2, 2021Publication date: August 25, 2022Inventors: Hyunmin SONG, Sanaz ALALI, Yun-Han LEE, Zhisheng YUN
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Publication number: 20220244552Abstract: An optical system for displaying a magnified virtual image of an image emitted by a display to a viewer. The optical system includes first and second lenses facing each other and spaced apart by an air gap to define an optical cavity therebetween. The optical cavity includes a reflective polarizer disposed on a major surface of the first lens, and an optical stack disposed on a major surface of the second lens. The optical stack includes an absorbing polarizer, a first retarder layer, a partial reflector, and a second retarder layer disposed between the absorbing polarizer and the partial reflector. The first and/or second lenses is/are birefringent lens provided outside the optical cavity to control polarization.Type: ApplicationFiled: July 2, 2020Publication date: August 4, 2022Inventors: John D. Le, Zhisheng Yun
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Publication number: 20220236568Abstract: Optical systems for displaying an image are described. The optical systems include a first and second optical lenses separated by air. A partial reflector is disposed on and conforms to a major surface of the first optical lens where the major surface can have a best-fit spherical radius of curvature in a range from 20 mm to 200 mm. A reflective polarizer is disposed on and conforms to a major surface of the first optical lens where the major surface can have a best-fit spherical radius of curvature greater than about 500 mm. A retarder layer is disposed between the reflective polarizer and the partial reflector. The first optical lens can have an optical birefringence of less than 15 nm/cm and the second optical lens can have an optical birefringence of greater than 15 nm/cm. A method of fabricating an optical assembly is described.Type: ApplicationFiled: May 20, 2020Publication date: July 28, 2022Inventors: Zhisheng Yun, Timothy L. Wong, Susan L. Kent, Erin A. McDowell, John D. Le, Jo A. Etter
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Publication number: 20220229306Abstract: A display system including an imager for forming an image, and a projection lens system for projecting the image formed by the imager is described. For each pixel in the plurality of pixels, the imager is configured to emit a cone of light having a central ray having a direction that varies with location of the pixel in the imager. The variation may increase a brightness of an image projected through the projection lens system by at least 30 percent. The display system may include a light guide having a light insertion portion adapted to receive light; a light transport portion disposed to receive light from the light insertion portion; and a light extraction portion disposed to receive light from the light transport portion.Type: ApplicationFiled: April 4, 2022Publication date: July 21, 2022Inventors: Andrew J. Ouderkirk, Timothy L. Wong, Erin A. McDowell, Zhisheng Yun, Gilles J. Benoit, Jo A. Etter
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Publication number: 20220197024Abstract: An optical system includes a reflective polarizer (20), and a display (10), first mirror (30a), and second mirror (30b) disposed on a same side of the reflective polarizer (20). The reflective polarizer (20) transmits an image emitted by the display (10) after the image is reflected by the first and second mirrors (30a, 30b). A mid-plane defined by intersection points between an optical axis of the system and the display (10), reflective polarizer (20), and second mirror (30b) has one-pass through four-pass regions having respective areas, A1 through A4.Type: ApplicationFiled: June 6, 2019Publication date: June 23, 2022Inventors: Zhisheng Yun, Stephen J. Willett, Craig R. Schardt, Gilles J. Benoit, Keith M. Kotchick, Ryan C. Shirk, David A. Rosen, Hao Wu
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Publication number: 20220187603Abstract: An optical system (200) provides wide field of view in a compact system having a low profile. The optical system (200) includes a display (10), a reflective polarizer (60), a minor (100), and a partial reflector (110), to provide a folded optical path between an image source and an eye of a viewer (30).Type: ApplicationFiled: April 10, 2019Publication date: June 16, 2022Inventors: Yi hang LV, Zhisheng Yun, Timothy L. Wong, Susan L. Kent, Erin A. McDowell
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Publication number: 20220171217Abstract: A bi-focal prescription eyewear lens includes a substrate and a reflective polarizer, or a partial reflector, bonded to the substrate. A reflective polarizer substantially transmits light having a first polarization state and substantially reflects light having an orthogonal second polarization state. The bi-focal optical lens has a first focal length for light having the first polarization state and a second focal length for light having the second polarization state. The first focal length is longer than the second focal length. Without the reflective polarizer or partial reflector, the bi-focal optical lens would have a single focal length. Eyeglasses can include the bi-focal prescription eyewear lens.Type: ApplicationFiled: February 15, 2022Publication date: June 2, 2022Inventors: Zhisheng Yun, Andrew J. Ouderkirk, Susan L. Kent, Erin A. McDowell, Timothy L. Wong, John D. Le, Michael L. Steiner
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Publication number: 20220146803Abstract: A method of fabricating an optical assembly includes providing a first mold having a first curved mold surface; placing a substantially flat reflective polarizer; on the first curved mold surface and applying at least one of pressure and heat to at least partially conform the reflective polarizer to the first curved mold surface; providing a second mold comprising a second mold surface, the first and second mold surfaces defining a mold cavity therebetween; substantially filling the mold cavity with a flowable material having a temperature greater than a glass transition temperature of the reflective polarizer; and solidifying the flowable material to form a solid optical element bonded to the reflective polarizer. A maximum variation of an orientation of a pass polarization state across the bonded reflective polarizer is within about 3 degrees of a maximum variation of the orientation of the pass polarization state across the substantially flat reflective polarizer.Type: ApplicationFiled: January 25, 2022Publication date: May 12, 2022Inventors: Jo A. Etter, Timothy L. Wong, Zhisheng Yun, Gregg A. Ambur, Benjamin G. Sonnek, Robert M. Jennings
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Patent number: 11327324Abstract: A display system including an imager for forming an image, and a projection lens system for projecting the image formed by the imager is described. For each pixel in the plurality of pixels, the imager is configured to emit a cone of light having a central ray having a direction that varies with location of the pixel in the imager. The variation may increase a brightness of an image projected through the projection lens system by at least 30 percent. The display system may include a light guide having a light insertion portion adapted to receive light; a light transport portion disposed to receive light from the light insertion portion; and a light extraction portion disposed to receive light from the light transport portion.Type: GrantFiled: May 30, 2017Date of Patent: May 10, 2022Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Andrew J. Ouderkirk, Timothy L. Wong, Erin A. McDowell, Zhisheng Yun, Gilles J. Benoit, Jo Anne Etter