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    • 2. 发明申请
    • MULTILAYER OPTICAL COATING
    • WO2003007025A3
    • 2003-01-23
    • PCT/US2002/023291
    • 2002-07-10
    • OPTIVA, INC.LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • G02B5/30
    • The anisotropic multilayer thin-film coatings may be used in fabrication of various optical elements, such as polarizers, beam splitters, interference-polarizing light filters, polarizing mirrors, etc.A multilayer optically anisotropic structure, which contains at least one layer with high degree of anisotropy and perfect structure, whereas refraction indexes and thicknesses of all layers and their combination is selected such as to provide an intereference extremum for at least one polarization of light in the said region of the spectrum and on at least one side of the multilayer optical structure, wherein at least one of the layers is optically anistropic and has been made of at least one organic materiel, molecules or fragments of molecules of which have flat build and where at least a part of the said layer has crystalline structure, while the following relationships are true for the main axes of ellipsoids of the imaginary and the real parts of the refraction index of the anistropic layer in the region of at least one of the absorption bands of the layers’ material on the area with linear dimensions no less that wavelength of the maximum of the least one absorption band : K 1 ≥ k 2 > k 3 , (n 1 + n 2 ) / 2 > n 3 , where k 1 , k 2 , k 3 and n 1 , n 2 , n 3 - are the main values of the axes of ellipsoids of the imaginary and the real parts, accordingly, of the refraction index of the layer.
    • 4. 发明申请
    • MULTILAYER OPTICAL COATING
    • 多层光学涂层
    • WO2003007025A2
    • 2003-01-23
    • PCT/US2002/023291
    • 2002-07-10
    • OPTIVA, INC.LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • G02B1/00
    • G02B5/287G02B5/3016
    • The invention pertains to anisotropic multilayer thin-film coatings and may be used in fabrication of various optical elements, such as polarizers, beam splitters, interference-polarizing light filters, polarizing mirrors, etc. The herein invention is aimed at creating a multilayer optically anisotropic structure, which contains at least one layer with high degree of anisotropy and perfect structure, whereas refraction indexes and thicknesses of all layers and their combination is selected according to the known law, determined by the purpose of the structure, such as to provide an interference extremum for at least one polarization of light. The technical result of the disclosed invention is the increase of effectiveness of transforming incident radiation, which corresponds to the functional purpose of the multilayer optically anisotropic structure, due to the high reproducible degree of anisotropy of at leastone layer in the structure.
    • 本发明涉及各向异性多层薄膜涂层,并且可用于制造各种光学元件,例如偏振器,分束器,干涉偏振光滤光器,偏振镜等。本发明旨在创建多层光学各向异性 结构,其包含至少一个具有高度各向异性和完美结构的层,而所有层的折射指数和厚度及其组合根据已知定律选择,由结构的目的确定,例如提供干涉 至少一个光的极化的极值。 所公开的发明的技术结果是由于结构中至少一层的各向异性的可重现程度高,因此增加了对应于多层光学各向异性结构的功能目的的入射辐射的有效性。
    • 5. 发明申请
    • DEVICE FOR FABRICATING ANISOTROPIC FILM
    • 用于制作各向异性胶片的装置
    • WO2002087782A1
    • 2002-11-07
    • PCT/US2002/010967
    • 2002-04-09
    • OPTIVA, INC.LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • B05C5/02
    • B05C11/028B05C5/0245G02B5/3016
    • Invention pertains to technology of fabricating thin films or coatings, which possess anisotropic physical properties, and to devices for obtaining such films from colloid systems, in particular from lyotropic liquid crystals (LLP).Technical result of the herein disclosed invention is the design of a device for fabricating anisotropic films from colloid systems of organic or inorganic materials with anisometric particles, which would enhance perfection of the structure of the obtained films, enhance reproducibility of parameters over the entire surface of films, as well as throughout their thickness, and also enhance anisotropy of its properties. Device for fabricating films from a colloid system has a channel or an array of channels(1) for supplying colloid system onto the substrate or a ware,(4) and a flat facet (3) for acting on the colloid system while on the substrate or a ware(4). One of the channel's walls or a plane tangent to the walls of an array of channels (1)at the outlet of colloid system onto the substrate forms a obtuse dihedral angle with the flat facet, while the dihedral angle, which apex is at the edge of the flat facet (4)opposite to the outlet of the channel (1) is acute.
    • 本发明涉及制造具有各向异性物理性质的薄膜或涂层的技术,以及用于从胶体体系(特别是溶致液晶(LLP))获得这种膜的装置。本发明公开的发明的技术结果是 用于制造具有不规则颗粒的有机或无机材料的胶体体系的各向异性膜的装置,其将增强所获得的膜的结构的完美性,增强膜的整个表面以及整个厚度上的参数的再现性,并且还增强 其各向异性的性质。 用于从胶体系统制造薄膜的装置具有用于将胶体系统提供到基底上的通道或阵列(1)或用于在基底上作用于胶体系统的器皿(4)和平面(3) 或器皿(4)。 通道的壁之一或与胶体系统出口处的通道阵列(1)的壁相切的平面与平面形成钝角二面角,而顶点位于边缘处的二面角 与通道(1)的出口相对的平面(4)是尖锐的。
    • 7. 发明申请
    • LIQUID CRYSTAL DISPLAY PANEL WITH IMPROVED IMAGE CONTRAST
    • 液晶显示面板与改进的图像对比度
    • WO2006092878A1
    • 2006-09-08
    • PCT/JP2005/017241
    • 2005-09-13
    • NITTO DENKO CORPORATIONLAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • LAZAREV, Pavel, I.PAUKSHTO, Michael, V.
    • G02F1/13357
    • G02F1/133536G02B6/0056G02F1/133514G02F1/13362G02F2001/133521G02F2201/17Y10T428/10
    • The present invention is directed to a liquid crystal display panel with improved image contrast. It comprises an array of pixel regions and a sequence of : a recycling backlight structure (2); a spatial intensity modulation structure; a spatial filtering structure (6). Said recycling backlight structure (2) comprises a broadband rear interference polar (RI-Polar 4). Said spatial intensity modulation structure comprises a broadband front interference polar (FI-Polar 7). The RI-Polar (4) and FI-Polar (7) are multilayer structures of stacked layers. At least one layer of each multilayer structure is optically anisotropic, and is made by means of Cascade Crystallization Process. Said layer is characterized by globally ordered biaxial crystalline structure with an intermolecular spacing of 3.4 ± 0.3 Å in the direction approximately parallel to transmission axis AB. This layer is transparent in the wavelength band of visible light, and is formed by rodlike supramolecules which represent at least on polycyclic organic compound with a conjugated π system and ionogenic groups.
    • 本发明涉及一种具有改善的图像对比度的液晶显示面板。 它包括像素区域阵列和一个循环背光结构(2)的序列; 空间强度调制结构; 空间滤波结构(6)。 所述回收背光结构(2)包括宽带后干扰极性(RI-Polar 4)。 所述空间强度调制结构包括宽带前干扰极化(FI-Polar 7)。 RI-Polar(4)和FI-Polar(7)是堆叠层的多层结构。 每个多层结构的至少一层是光学各向异性的,并且通过级联结晶法制备。 所述层的特征在于在大致平行于透射轴线AB的方向上的分子间间隔为3.4±0.3的全局有序的双轴晶体结构。 该层在可见光的波长带中是透明的,并且由棒状超分子形成,其至少表示具有共轭p系统和离子发生基团的多环有机化合物。