ANORDNUNG ZUR ORTS- UND WELLENLÄNGENAUFGELÖSTEN ERFASSUNG VON LICHTSTRAHLUNG, DIE VON MINDESTENS EINER OLED ODER LED EMITTIERT WIRD
    1.
    发明公开
    ANORDNUNG ZUR ORTS- UND WELLENLÄNGENAUFGELÖSTEN ERFASSUNG VON LICHTSTRAHLUNG, DIE VON MINDESTENS EINER OLED ODER LED EMITTIERT WIRD 审中-公开
    安排从至少一个光照射的当地和光谱分辨检测或OLED LED BY签发

    公开(公告)号:EP3172542A1

    公开(公告)日:2017-05-31

    申请号:EP15734414.4

    申请日:2015-07-10

    摘要: The invention relates to an arrangement for spatially resolved and wavelength-resolved detection of light radiation which is emitted from at least one OLED (1) or LED. A multilayer system (2), which is formed with layers configured on top of each other in an alternating manner made of a material with higher and lower optical refractive index n, is arranged between an electrode (3, 4), an OLED or LED and a substrate. In this case, light radiation from the at least one OLED or LED, comprising a plurality of different wavelengths λ1, ⋋2, ⋋3,...⋋n, exits the multi-layer system. Light radiation, comprising different wavelengths λ1, ⋋2, λ3,...⋋n with defined angles, exits, and is incident on at least one detector array (9, 9.1) after at least simple refraction on an optical element (10, 11) or after reflection on a layer or a layer system of a sensor (12), such that each light radiation comprising a wavelength λ1, ⋋2, ⋋3,... or ⋋n is incident on a detector element of the detector array. The detector elements of the detector array are arranged discretely in relation to one another.

    摘要翻译: 本发明在安排涉及一种用于空间分辨和波长分解的光辐射的探测的所有其由至少一个OLED(1)或LED发射。 其上形成有在交替的材料制成的方式与较高和较低光折射率n上配置海誓山盟在顶部层的多层系统(2)所有,是到电极(3,4)上的OLED或LED之间设置 和底物。 在这种情况下,从至少一个OLED或LED,其包括不同的波长λ1的多个光辐射,⋋2,⋋3...⋋n,离开多层系统。光辐射,它包括不同的波长λ1, ⋋2,λ3,...⋋n与限定的角度,出口,以及后至少在光学元件(10,11)的简单折射或层上反射后入射的至少一个检测器阵列(9,9.1)上 或传感器的层系统(12)检测每个做光辐射包括波长λ1,⋋2,⋋3...或⋋n入射在检测器阵列的检测器元件上。 检测器阵列的检测器元件相分离地布置于彼此。

    STRAHLFORMER
    4.
    发明公开
    STRAHLFORMER 审中-公开

    公开(公告)号:EP2414886A1

    公开(公告)日:2012-02-08

    申请号:EP10713176.5

    申请日:2010-04-01

    IPC分类号: G02B27/09 G02B3/00

    摘要: A beam shaper (100) according to an embodiment example of the present invention for a light source arrangement for producing a radiation profile comprises a plurality of adjacently arranged optical beam shaping elements (110), which each belong to one type of a plurality of different types having different optical characteristics. The beam shaping elements (100) effect the radiation profile of the beam shaper (100) when the beam shaping elements (110) are jointly illuminated and each comprise an intensity-modulating element (120) and a refractive element (130).

    摘要翻译: 根据本发明的用于产生辐射轮廓的光源装置的实施例的光束整形器包括多个相邻布置的光束成形元件,每个元件属于具有不同光学特性的多种不同类型的一种类型。 当照射在一起时,光束成形元件影响光束整形器的辐射轮廓,并且每个包括强度调制元件和折射元件。

    REFLEKTIVER STRAHLFORMER ZUM ERZEUGEN EINER GEWÜNSCHTEN ABSTRAHLCHARAKTERISTIK AUS EINER ABSTRAHLCHARAKTERISTIK EINER FLÄCHENLICHTQUELLE
    6.
    发明公开

    公开(公告)号:EP2758708A1

    公开(公告)日:2014-07-30

    申请号:EP11758225.4

    申请日:2011-09-21

    IPC分类号: F21V7/00

    CPC分类号: F21V7/0083 F21V11/02

    摘要: A reflective beam shaper (100) for producing a desired emission characteristic from an emission characteristic of a surface light source (105) comprises a beam shaping areal structure (110) having a plurality of light-transmissive beam shaping openings (115) extending from a first side (112), which is to face the surface light source, to a second side (114), which is opposite the first side, through the beam shaping areal structure, wherein the light-transmissive beam shaping openings have reflective side walls (117), and wherein a lateral extent (L1) of the light-transmissive beam shaping openings on the first side of the beam shaping areal structure is smaller than a lateral extent (L2) of the light-transmissive beam shaping openings on the second side of the beam shaping areal structure, such that the emission characteristic of the surface light source is changed to the desired emission characteristic upon passage through the beam shaping areal structure.

    摘要翻译: 在面光源的发光特性从产生所期望的发射特性的反射光束整形器(100)(105)包括一个光束整形具有透光性光束整形开口有多个(115)的平面结构(110)从一个扩展 第一侧(112)是哪个面对所述面光源,向第二侧(114),它是第一侧相对,通过光束整形平面结构,worin透光光束整形开口具有反射侧壁( 117),和worin上光束整形平面结构的第一侧上的光透射光束整形开口的横向范围(L1)比所述透光性光束在第二侧上成形的开口的横向范围(L2)更小 光束整形平面结构的,检查做了面光源的发光特性通过光束整形平面结构在通道改变为所期望的发射特性。

    ANORDNUNG UND VERFAHREN ZUR OPTISCHEN DETEKTION VON IN PROBEN ENTHALTENEN CHEMISCHEN, BIOCHEMISCHEN MOLEK LEN UND/ODER PARTIK ELN
    7.
    发明公开
    ANORDNUNG UND VERFAHREN ZUR OPTISCHEN DETEKTION VON IN PROBEN ENTHALTENEN CHEMISCHEN, BIOCHEMISCHEN MOLEK LEN UND/ODER PARTIK ELN 审中-公开
    用于样品的光学检测设备和方法所含化学,生化Molek度假胜地LEN AND / OR Partik ELN

    公开(公告)号:EP1627220A1

    公开(公告)日:2006-02-22

    申请号:EP04738589.3

    申请日:2004-05-26

    IPC分类号: G01N21/55

    CPC分类号: G01N21/553

    摘要: The invention relates to an arrangement and a method for the optical detection of chemical and biochemical molecules and/or particles contained in samples, using surface plasmon resonance (SPR) which varies according to the optical refractive index. According to the invention, light from a light source is directed towards an optical detector by means of at least one sensor element which is embodied as an optical waveguide, at least in sections. At least one electroconductive thin layer is provided on the boundary surface of said optical waveguide, beneath a measuring surface. The light guided by the optical waveguide strikes the boundary surface in the region of the thin layer, at angles above the total reflection angle. A front side of the sensor element is provided with an aspherical, convex, optical surface for the light incidence, by which means the light inside the sensor element is focussed in the direction of the boundary surface covered by the at least one thin layer and/or measuring surface, and a second aspherical, convex, optical surface is provided on the front side of the sensor element for the light emergence. The light modified as a result of surface plasmon resonance is directed in a collimated form towards the at least one optical detector by means of said optical surfaces.