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    • 3. 发明申请
    • LIGHT SOURCE AND DISPLAY SYSTEM INCORPORATING SAME
    • 光源和显示系统
    • US20120200801A1
    • 2012-08-09
    • US13502060
    • 2010-10-22
    • John A. WheatleyTao LiuEncai HaoWilliam Blake KolbMichael Benton Free
    • John A. WheatleyTao LiuEncai HaoWilliam Blake KolbMichael Benton Free
    • G02F1/1335F21V9/14
    • F21V13/14F21V9/14G02B6/005G02B6/0051G02B6/0096G02F1/133602
    • Light sources are disclosed. A disclosed light source includes an optically reflective cavity that includes an input port for receiving light and an output port for transmitting light, a lamp that is disposed at the input port, and an optical stack that is disposed at the output port. The optical stack includes a forward scattering optical diffuser that is disposed at the output port and has an optical haze that is not less than about 20%, and an optical film that is disposed on the optical diffuser. The optical film enhance total internal reflection at the interface between the optical film and the optical diffuser. The optical film has an index of refraction that is not greater than about 1.3 and an optical haze that is not greater than about 5%. The optical stack also includes a reflective polarizer layer that is disposed on the optical film. Substantial portions of each two neighboring major surfaces in the optical stack are in physical contact with each other.
    • 公开了光源。 所公开的光源包括光反射腔,其包括用于接收光的输入端口和用于传输光的输出端口,设置在输入端口处的灯以及设置在输出端口处的光学堆叠。 光学堆叠包括设置在输出端口并具有不小于约20%的光学雾度的前向散射光学漫射器,以及设置在光学漫射器上的光学膜。 光学膜增强了在光学膜和光学扩散器之间的界面处的全内反射。 光学膜的折射率不大于约1.3,光学雾度不大于约5%。 光学堆叠还包括设置在光学膜上的反射偏振器层。 光学堆叠中每两个相邻的主要表面的实质部分彼此物理接触。
    • 6. 发明申请
    • IMMERSED ASYMMETRIC REFLECTOR WITH REDUCED COLOR
    • 具有减少颜色的不对称反射器
    • US20120206674A1
    • 2012-08-16
    • US13501860
    • 2010-10-22
    • Michael F. WeberTimothy J. NevittTao LiuJohn A. Wheatley
    • Michael F. WeberTimothy J. NevittTao LiuJohn A. Wheatley
    • G02F1/1333G02B5/30
    • G02B5/305G02B6/005G02F1/13362
    • A film construction (610) includes a group of microlayers that reflect normally incident light polarized along a first axis more than normally incident light polarized along a second axis. The microlayers are arranged into optical repeat units (ORUs) that have a layer thickness distribution along a thickness axis perpendicular to the first and second axes that provides the group of microlayers with an intermediate reflectivity over an extended reflection band for a given incidence condition. The ORUs include thinner ORUs whose thicknesses are less than an average thickness, and thicker ORUs whose thicknesses are greater than the average thickness. The group of microlayers is optically immersed in a medium having a refractive index greater than air, such that “supercritical light” can propagate through the microlayers. The microlayers are oriented such that, on average, the thinner ORUs are closer than the thicker ORUs to an output surface of the construction. By “supercritical light” is meant that travels through the film at an angle that is more oblique than can be achieved by illumination from air using a flat, smooth air/film interface.
    • 膜结构(610)包括一组微层,其反射正常入射的光沿着第一轴偏振,而不是沿着第二轴偏振的正常入射光。 微层布置成光学重复单元(ORU),其具有沿着垂直于第一和第二轴线的厚度轴线的层厚度分布,其为给定的入射条件在延伸的反射带上提供中间反射率的微层。 ORU包括厚度小于平均厚度的更薄的ORU,以及厚度大于平均厚度的较厚ORU。 微组织光学地浸入折射率大于空气的介质中,使得“超临界光”可以传播通过微层。 微层的取向使得平均来说,更薄的ORU比较厚的ORU更接近于结构的输出表面。 “超临界光”是指以比通过使用平坦,平滑的空气/膜界面的空气照明可以实现的倾斜更倾斜的角度穿过膜。
    • 8. 发明授权
    • Immersed asymmetric reflector with reduced color
    • 浸没的不对称反射体具有降低的颜色
    • US09057843B2
    • 2015-06-16
    • US13501860
    • 2010-10-22
    • Michael F. WeberTimothy J. NevittTao LiuJohn A. Wheatley
    • Michael F. WeberTimothy J. NevittTao LiuJohn A. Wheatley
    • G02F1/1335G02F1/1333G02B5/30F21V8/00
    • G02B5/305G02B6/005G02F1/13362
    • A film construction (610) includes a group of microlayers that reflect normally incident light polarized along a first axis more than normally incident light polarized along a second axis. The microlayers are arranged into optical repeat units (ORUs) that have a layer thickness distribution along a thickness axis perpendicular to the first and second axes that provides the group of microlayers with an intermediate reflectivity over an extended reflection band for a given incidence condition. The ORUs include thinner ORUs whose thicknesses are less than an average thickness, and thicker ORUs whose thicknesses are greater than the average thickness. The group of microlayers is optically immersed in a medium having a refractive index greater than air, such that “supercritical light” can propagate through the microlayers. The microlayers are oriented such that, on average, the thinner ORUs are closer than the thicker ORUs to an output surface of the construction. By “supercritical light” is meant that travels through the film at an angle that is more oblique than can be achieved by illumination from air using a flat, smooth air/film interface.
    • 膜结构(610)包括一组微层,其反射正常入射的光沿着第一轴偏振,而不是沿着第二轴偏振的正常入射光。 微层布置成光学重复单元(ORU),其具有沿着垂直于第一和第二轴线的厚度轴线的层厚度分布,其为给定的入射条件在延伸的反射带上提供中间反射率的微层。 ORU包括厚度小于平均厚度的更薄的ORU,以及厚度大于平均厚度的较厚ORU。 微组织光学地浸入折射率大于空气的介质中,使得“超临界光”可以传播通过微层。 微层的取向使得平均来说,更薄的ORU比较厚的ORU更接近于结构的输出表面。 “超临界光”是指以比通过使用平坦,平滑的空气/膜界面的空气照明可以实现的倾斜更倾斜的角度穿过膜。
    • 9. 发明授权
    • Light source and display system incorporating same
    • 光源与显示系统相结合
    • US08922733B2
    • 2014-12-30
    • US13502060
    • 2010-10-22
    • John A. WheatleyTao LiuEncai HaoWilliam Blake KolbMichael Benton Free
    • John A. WheatleyTao LiuEncai HaoWilliam Blake KolbMichael Benton Free
    • G02F1/1335F21V8/00
    • F21V13/14F21V9/14G02B6/005G02B6/0051G02B6/0096G02F1/133602
    • Light sources are disclosed. A disclosed light source includes an optically reflective cavity that includes an input port for receiving light and an output port for transmitting light, a lamp that is disposed at the input port, and an optical stack that is disposed at the output port. The optical stack includes a forward scattering optical diffuser that is disposed at the output port and has an optical haze that is not less than about 20%, and an optical film that is disposed on the optical diffuser. The optical film enhance total internal reflection at the interface between the optical film and the optical diffuser. The optical film has an index of refraction that is not greater than about 1.3 and an optical haze that is not greater than about 5%. The optical stack also includes a reflective polarizer layer that is disposed on the optical film. Substantial portions of each two neighboring major surfaces in the optical stack are in physical contact with each other.
    • 公开了光源。 所公开的光源包括光反射腔,其包括用于接收光的输入端口和用于传输光的输出端口,设置在输入端口处的灯以及设置在输出端口处的光学堆叠。 光学堆叠包括设置在输出端口并具有不小于约20%的光学雾度的前向散射光学漫射器,以及设置在光学漫射器上的光学膜。 光学膜增强了在光学膜和光学扩散器之间的界面处的全内反射。 光学膜的折射率不大于约1.3,光学雾度不大于约5%。 光学堆叠还包括设置在光学膜上的反射偏振器层。 光学堆叠中每两个相邻的主要表面的实质部分彼此物理接触。
    • 10. 发明申请
    • OPTICAL STACK AND LIGHTGUIDES
    • 光学堆叠和光源
    • US20130022315A1
    • 2013-01-24
    • US13634583
    • 2011-04-11
    • William F. EdmondsTao LiuJohn F. Van Deriofske IIIJohn A. Wheatley
    • William F. EdmondsTao LiuJohn F. Van Deriofske IIIJohn A. Wheatley
    • G02B5/30G02B6/26
    • G02B5/045F21V11/00G02B6/0053G02F1/133606G02F2001/133607Y10T428/24612
    • Optical stack is disclosed. The optical stack includes a first optical stack that includes, a first optical adhesive layer, and a reflective polarizer layer that is disposed on the first optical adhesive layer. The reflective polarizer layer substantially reflects light of a first polarization state and substantially transmits light of a second polarization state orthogonal to the first polarization state. The optical stack also includes a second optical stack that includes a second optical adhesive layer, a low index layer that is disposed on the second optical adhesive layer and includes a plurality of voids dispersed in a binder, and a light directing film that is disposed on the low index layer and includes a plurality of unitary discrete structures. Portions of each unitary discrete structure penetrate into the first optical adhesive layer. Portions of each unitary discrete structure do not penetrate into the first optical adhesive layer. Each unitary discrete structure defines a penetration depth and a penetration base at the interface between the penetrating and non-penetrating portions of the unitary discrete structure. The penetration base has a minimum penetration base dimension. The plurality of unitary discrete structures has an average penetration depth and an average minimum penetration base dimension. The ratio of the average penetration depth to the average minimum penetration base dimension is at least 1.5. The peel strength between the first and second optical stacks is greater than about 30 grams/inch.
    • 公开了光堆叠。 光学堆叠包括第一光学堆叠,其包括第一光学粘合剂层和设置在第一光学粘合剂层上的反射偏振器层。 反射型偏振层基本上反射第一偏振态的光,并且基本上透射与第一偏振状态正交的第二偏振状态的光。 光学堆叠还包括第二光学堆叠,其包括第二光学粘合剂层,设置在第二光学粘合剂层上并包括分散在粘合剂中的多个空隙的低折射率层,以及设置在 低折射率层并且包括多个单一离散结构。 每个单一离散结构的部分渗入第一光学粘合剂层。 每个单一离散结构的部分不会渗透到第一光学粘合剂层中。 每个单一离散结构在整体离散结构的穿透部分和非穿透部分之间的界面处限定穿透深度和穿透基部。 穿透底座具有最小穿透基座尺寸。 多个单一离散结构具有平均穿透深度和平均最小穿透基础尺寸。 平均渗透深度与平均最小穿透基础尺寸之比至少为1.5。 第一和第二光学叠层之间的剥离强度大于约30克/英寸。