| Patent application number | Description | Published |
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| 20100118381 | Light Modulation Device - A modulation device based on electrowetting cells (EW cells), phase or amplitude or both simultaneously as a complex value of incident light is modulated in each EW cell. An EW cell includes at least one chamber with at least two fluids which are separated by an interface, external and internal electrodes which form electrode pairs activatable by control means, where at least one electrode pair controls the level of the interfaces in the chamber. The internal, mutually functionally independent electrodes inside the chamber are disposed parallel to each other such that the chamber is divided into two communicating sections with two controllable interfaces, where at least one section is transparent and forms the optical path. When at least one electrode pair is activated, the interfaces are mutually displaced such that the path length of the pencils of rays is changed compared with an initial value. | 05-13-2010 |
| 20100194745 | Holographic Display Having Improved Reconstruction Quality - Disclosed is a display for the holographic reconstruction of a three-dimensional scene using means which allow a reduction of speckle patterns. Speckle patterns result in the graining of a holographic reconstruction and worsen the quality thereof. The 3D scene is incoherently superimposed with itself chronologically or spatially in the eye of the observer. The modulated wave fronts of each reconstructed object point of the scene are shifted relative to themselves in the reconstruction beam path and superimposed in the eye of the observer. The shifting may occur one-dimensionally and two-dimensionally. Each object point is multiplied with itself in the eye of the observer in accordance with the number of the shifted wave fronts. The various speckle patterns over which the eye of the observer averages are also multiplied. Speckle patterns are reduced and the reconstruction quality is thus increased in holographic displays. | 08-05-2010 |
| 20100194854 | Holographic Reconstruction System with an Arrangement of Controllable Microcells - A holographic reconstruction system is disclosed for the three-dimensional reconstruction of object light spots of a scene, comprising spatial light modulation means which modulate interference-capable light waves of illumination means with at least one video hologram, and optical focussing means which focus the modulated light waves with the reconstructed object light spots for at least one eye position of the observer's eyes. An electro-optical deflection means controlled by a system controller focuses the modulated light wave with the reconstructed object light spots on at least one eye position and tracks them when the eye position changes. The electro-optical deflection means is a controllable optical diffraction grating with a variable surface relief structure consisting of separately controllable microcells. | 08-05-2010 |
| 20100214634 | Holographic Reconstruction System with an Optical Wave Tracking Means - A holographic reconstruction system is disclosed with spatial light modulation means, modulating interferable light waves from light sources with at least one video hologram, comprising optical focusing means, focusing the modulated light waves with the reconstructed object light points for at least one eye position for the eyes of observers and controllable electro-optical deflector means, which direct the focused modulated light waves with the reconstructed light points to at least one eye position in order to reduce the aberrations. The reconstruction system has the optical focusing means in a field of focusing elements, wherein each focusing element is provided with at least one interferable light source. The electro-optical deflector means lie in the light path of the interferable light waves after the optical focusing mean and have at least one field of deflector elements, which has at least one separately controllable electro-optical deflector element for each focusing element. | 08-26-2010 |
| 20100231999 | Dynamic Wavefront Shaping Unit - An optical unit for dynamically shaping a wavefront is disclosed, having light modulation cells disposed regularly in cell fields, and locally influencing partial light waves in a propagating light wavefront. Each cell field is connected to a cell controller separately adjusting the optical behavior of the light modulator cells. Serially-disposed fields, each having modulator cells, are located in the light path of the light wavefront. Cell control means adjust the modulator cells in a first cell field such that the modulator cells discretely implement a phase shift having a continuous phase value, and in a second cell field such that the modulator cells implement a prism function having a continuous directional value for the partial light waves. A focusing means for the emitted wavefront is also located in the light path of the optical unit, guiding the partial light waves at an output pupil of the optical unit. | 09-16-2010 |
| 20100232000 | Spatial Light Modulator Using Electrowetting Cells - A spatial light modulator for modulating light field amplitude comprises a surface relief grating adapted to act as a diffractive lens, where a material is used to fill at least one groove of a surface grating structure, such that a controllable refractive index birefringence of the material inside the surface relief grating is controlled by an electric field, which leads to a controllable intensity at a fixed focal point. | 09-16-2010 |
| 20100259804 | Illumination Unit Comprising an Optical Wave Guide and an Imaging Means - Disclosed is an illumination unit comprising a strip-type optical wave guide and an imaging means, and providing a very high light efficiency with a reduced number of primary light sources. The illumination unit enables the production of a coherent plane wave field having a temporal and spatial coherence required for holographic reconstructions. The strip-type optical wave guide contains extraction elements for extracting injected coherent light guided into an observer plane by imaging elements via a controllable light modulation means. During the injection of light, the extraction elements form a grid of secondary light sources which are arranged in the front focal plane of the imaging elements and carry out the spatial coherence in at least one dimension. A secondary light source and an imaging element are associated with each other in order to guide the extracted light through the controllable light modulation means in a collimated manner. | 10-14-2010 |
| 20100277779 | Light Modulating Device - The present invention relates to a light modulating device, comprising a SLM and a pixelated optical element, in which a group of at least two adjacent pixels of the SLM in combination with a corresponding group of pixels in the pixelated optical element form a macropixel, the pixelated optical element being of a type such that its pixels comprise a fixed content, each macropixel being used to represent a numerical value which is manifested physically by the states of the pixels of the SLM and the content of the pixels of the pixelated optical element which form the macropixel. | 11-04-2010 |
| 20100296148 | Spatial Light Modulator Using Electrowetting Cells - A spatial light modulator comprising pixels, where for each pixel, a light field amplitude transmitted by the pixel is modulated by an electrowetting cell and/or a light field phase transmitted by the pixel is modulated by an electrowetting cell. | 11-25-2010 |
| 20110013244 | Controllable Deflection Device - A visibility region produced through superimposed light bundles is tracked within a large angular range in front of a light modulator through controllable electrowetting cells having a prism function. Negative effects of buckling of the light bundle cross section are minimized by deflecting the light bundle in the prism cell. Light bundles, modulated by a controllable light modulator, impinge the modulator cells with a defined intensity distribution and pass by a controllable deflection device including a prism cell and a controllable electrode arrangement that adjusts boundary surfaces between a plurality of non-mixable materials. The altered intensity distribution is compensated in the light path of the light bundle in the visibility region by reducing the intensities of secondary diffraction order maxima such that the effective surface of a modulator cell has a shape that is tailored to the altered intensity distribution. | 01-20-2011 |
| 20110122467 | LIGHT MODULATING DEVICE - A light modulating device comprises a spatial light modulator and a homogenizing element. A group of at least two adjacent pixels of the spatial light modulator form a macropixel: The spatial light modulator is of a type such that its pixels comprise a variable content. Each macropixel is used to represent a numerical value which is manifested physically by the states of the pixels of the spatial light modulator which form the macropixel. For each macropixel a homogenizing element is present in the optical path after the macropixel. The homogenizing element comprises an optical input and an optical output. The homogenizing element is adapted such that output light of the macropixel is entering the optical input of the homogenizing element and is mixed within the homogenizing element and is output at the optical output of the homogenizing element. | 05-26-2011 |
