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    • 1. 发明公开
    • Optical systems
    • 光学系统
    • EP2278385A2
    • 2011-01-26
    • EP10010515.4
    • 2000-12-22
    • Longevyty AS
    • Guscho, Yury
    • G02B27/54G02B26/02H04N9/31
    • G02B26/0808G02B27/54H04N9/3102H04N9/3141
    • A colour optical system ( Fig. 41 ) comprises three colour channels for handling light of three different colours, output from the three channels being combined to create a colour image. Each channel includes a light source (11), first diaphragm means (12), and an optical element (14) having at least one cell (1) comprising two deformable dielectric layers (4, 5) which meet at an interface, at least one of which (5) is a relief forming gel, a first electrode (6) on one side of the layers and signal electrode (3) on the other side of the layers, and means for supplying a signal to the signal electrode to create a relief to modulate light from the light source. There is a common second diaphragm means (16) to receive combined output from the three channels, the second diaphragm means being in the form of a system of light filters capable of stopping light fluxes of zero orders of diffraction but passing light fluxes of higher orders of diffraction for all three colours.
    • 彩色光学系统(图41)包括三个颜色通道,用于处理三种不同颜色的光,三个通道的输出被组合以产生彩色图像。 每个通道包括光源(11),第一光阑装置(12)和具有至少一个单元(1)的光学元件(14),该单元包括两个可变形介电层(4,5),至少一个单元 其中之一(5)是凸版形成凝胶,层的一侧上的第一电极(6)和层的另一侧上的信号电极(3),以及用于向信号电极提供信号以创建 调制来自光源的光的浮雕。 有一个共同的第二光阑装置(16),用于接收来自三个通道的组合输出,第二光阑装置是滤光器系统的形式,其能够阻止零级衍射的光通量但通过较高阶的光通量 所有三种颜色的衍射。
    • 5. 发明公开
    • Optical systems
    • 光学系统
    • EP2293134A1
    • 2011-03-09
    • EP10010514.7
    • 2000-12-22
    • Longevyty AS
    • Guscho, Yury
    • G02B26/02G02B27/54G02B3/14H04N5/74H04N9/31H01J29/12G02B26/08
    • G02B26/0808G02B27/54H04N9/3102H04N9/3141
    • A colour optical system comprising three colour channels for handling light of three different frequencies, output from the three channels being combined to create a colour image. Each channel includes an optical element (14, Fig 40 ) which comprises at least one cell (1) having two deformable dielectric layers (4, 5, Fig 1 ) which meet at an interface, at least one of which (5) is a relief forming gel, a first electrode (6) on one side of the layers and a signal electrode (3) on the other side of the layers, the electrodes being provided on dielectric substrates. Means (18) supplies voltage pulses which are applied to the signal electrode in accordance with desired signals. Means (8) supplies a support voltage to the first electrode. The support voltage for each channel differs from the support voltage of the other channels and is proportional to the frequency of light being handled by the channel.
    • 一种彩色光学系统,包括用于处理三个不同频率的光的三个彩色通道,三个通道输出的信号被组合以产生彩色图像。 每个通道包括光学元件(14,图40),该光学元件包括至少一个具有两个在界面处相遇的可变形介电层(4,5,图1)的单元(1),其中至少一个(5)是 在所述层的一侧上的第一电极(6)和在所述层的另一侧上的信号电极(3),所述电极设置在电介质基底上。 装置(18)根据所需信号提供施加到信号电极的电压脉冲。 装置(8)向第一电极提供支持电压。 每个通道的支持电压与其他通道的支持电压不同,并与通道处理的光的频率成正比。
    • 6. 发明授权
    • APPARATUS AND PROCESS FOR CHARACTERISING SAMPLES
    • 设备和工艺样品表征
    • EP1454183B1
    • 2006-04-26
    • EP02782544.7
    • 2002-12-05
    • UNIVERSITE LIBRE DE BRUXELLES
    • JOANNES, Luc
    • G02B27/54G01N21/45
    • G02B27/54G01N21/455
    • The present invention is related to an apparatus for measuring by the Schlieren technique light beam deviations generated by a sample (EV), said apparatus comprising: a source (S) of light beam for lighting up said sample (EV) therewith so as to have a transmitted beam; imaging means (L2, L3) for forming the image of said sample from said transmitted beam; a Schlieren filter (SFP) for filtering said image, generating said Schlieren fringes; detecting means (CCD) for detecting said filtered image; phase shifting means for creating a phase shift of the Schlieren fringes at the transmitted beam; processing means for calculating the phase of the Schlieren fringes and deducing the angle of the beam deviation created by the sample from the detected image, characterised in that the Schlieren filter (SFP) comprises a periodic structure (SFP) of a defined period and having a series of alternating absorbing and transparent sub-elements. The present invention is also related to a method for measuring by the Schlieren technique light beam deviations generated by a sample using said apparatus.