Abstract: An erect life-size lens array having a deep focal depth is realized. The erect life-size lens array includes a first lens array, a second lens array, a third lens array, a first aperture and a second aperture, wherein when a distance between a second principal plane of the second lens and a first principal plane of the third lens is ?1, a distance between a second principal plane of the third lens and a design image surface is ?2, a radius of a circular hole of the aperture is ra, and a defocus amount is ?3, the erect life-size lens array is for causing an MTF at a spatial frequency ? to become MTFtarget or more and satisfies (J1(2?·ra·((1/?1)+(1/?2))·?·?3))/(?·ra·((1/?1)+(1/?2))·?·?3)?MTFtarget, where J1 is a first type first-order Bessel function.

Abstract: Discussed are a color electrophoretic display device with a color filter layer, which is formed in a droplet state on a rear surface of an electronic ink film through surface treatment so as to be capable of adjusting density of droplets in pixels and achieving correct alignment, and a method for manufacturing the same. The method includes forming a thin film transistor (TFT) array substrate including a display region, in which a plurality of pixel regions are defined in a matrix, and alignment keys provided at the outside of the display region, forming an electrophoretic layer including a micro capsule layer formed so as to correspond to the display region of the TFT array substrate, and forming a color filter layer on the electrophoretic layer using the alignment keys so as to correspond to the respective pixel regions of the display region.

Abstract: A projection objective of a microlithographic projection exposure apparatus has a high index refractive optical element with an index of refraction greater than 1.6. This element has a volume and a material related optical property which varies over the volume. Variations of this optical property cause an aberration of the objective. In one embodiment at least 4 optical surfaces are provided that are arranged in at least one volume which is optically conjugate with the volume of the refractive optical element. Each optical surface comprises at least one correction means, for example a surface deformation or a birefringent layer with locally varying properties, which at least partially corrects the aberration caused by the variation of the optical property.

Abstract: An optical interference display panel is disclosed that has a substrate, an optical interference reflection structure, and an opaque protection structure. The optical interference reflection structure has many color-changeable pixels and is formed on the substrate. The opaque protection structure is adhered and fixed onto the substrate with an adhesive and encloses the optical interference reflection structure between the substrate and the opaque protection structure. The opaque protection structure blocks and/or absorbs light, and light is thus not emitted outward by passing through defects in the optical interference reflection structure Moreover, the opaque protection structure and the adhesive also prevent the optical interference reflection structure from being damaged by an external environment.

Abstract: A system measures a corneal topography of an eye. The system includes a group of first light sources arranged around a central axis, the group being separated from the axis by a radial distance defining an aperture in the group; a plurality of second light sources; a detector array; and an optical system adapted to provide light from the second light sources through the aperture to a cornea of an eye, and to provide images of the first light sources and images of the second light sources from the cornea, through the aperture, to the detector array. The optical system includes an optical element having a focal length, f. The second light sources are disposed to be in an optical path approximately one focal length, f, away from the optical element.

Abstract: A liquid immersion type projection optical system that can stably prevent the outflow of immersion liquid into inside of an optical system and can maintain good imaging performance. In the projection optical system of the present invention, an optical path between a light transmitting member (Lp) disposed closest to a second surface (W) side and the second surface is filled with a liquid (Lm1) having a refractive index greater than 1.1, and a light shielding film (36) for shielding the passing of light is formed on the side surfaces (41, 42) of the light transmitting member. When D is a space between the second surface and the light shielding film, ? is a maximum incident angle of an image forming beam which reaches the second surface, and Ym is a maximum image height on the second surface, the condition of 0.25<D/Ym×tan ?<1.7 is satisfied.

Abstract: A bi-stable display device including a first substrate, a thin film transistor (TFT) array layer and a bi-stable display panel is provided. The TFT array layer is formed on the first substrate and the bi-stable display panel is disposed on the TFT array layer. The first substrate includes at least two patterns with two predetermined ranges for respectively limiting the shift along a first axis and a second axis, and the first axis is perpendicular to the second axis.

Abstract: A combiner positioning system (300) for a heads-up display (100). The positioning system (300) is arranged on a frame (302) including a base plate (334). A movable carrier (306) is provided for supporting a combiner (106) within the frame. The carrier (306) is movable between a first end of the frame, where the combiner (106) is in a retracted position (storage position), to a second end where the combiner is in a fully extended position (display position).

Abstract: An electrophoretic particle includes ionic liquid stored in a spherical polymer shell and a charged layer formed on an inner surface of the shell, and a display device includes the electrophoretic particle. The shell is not charged, and the charged layer in the shell is charged. Therefore, particles having different polarities from each other do not stick to each other. Since the electrophoretic particles are dispersed in air, a high response speed can be achieved, a large amount of charges can be formed by the ionic liquid and the charged layer contacting the ionic liquid, and thus, the particles can move with a low driving voltage.

Abstract: A lens barrel is mated with a lens mount through use of a screw thread whereby relative rotation adjusts lens focus. The lens barrel and lens mount are additionally provided with an interengaging formation that is interposed between an optical axis of the lens barrel and the screw thread. This formation provides a cylindrical sliding contact which isolates any particles produced by operation of the screw thread from reaching the optical components at or near the optical axis.

Abstract: An electro-wetting apparatus includes a liquid having conductivity or polarity and a first electrode and a second electrode that apply voltage to the liquid. The electro-wetting apparatus also includes a dielectric layer provided between the liquid and the first electrode. The electro-wetting apparatus further includes a voltage-applying unit that applies a voltage signal between the first electrode and the second electrode, where the voltage signal is periodically changed between a first voltage of zero (0) volt or more and a second voltage of larger than the first voltage.

Abstract: The present invention relates to improved electro-optic rearview mirror elements and assemblies incorporating the same. Area of the effective field of view of the electro-optic mirror element substantially equals to that defined by the outermost perimeter of the element.

Abstract: An optical sheet includes a transparent base, a plurality of first micro structures, and a plurality of second micro structures. The transparent base has a light-receiving surface and a light-exit surface. The first micro structures are disposed on the light-exit surface, and the second micro structures are disposed on the light-receiving surface. Each first micro structure includes a first planar surface and a curve surface. Each second micro structure includes a second planar surface formed on the light-receiving surface and a total reflection surface connected with the second planar surface. Each first micro structure forms a first orthogonal projection area on the light-receiving surface, each second micro structure forms a second orthogonal projection area on the light-receiving surface, the second planar surface is located within the first orthogonal projection area, and the entire area of the second planar surface is equal to the second orthogonal projection area.

Abstract: The energy distribution of the beam spot on the irradiated surface changes due to the change in the oscillation condition of the laser or before and after the maintenance. The present invention provides an optical system for forming a rectangular beam spot on an irradiated surface including a beam homogenizer for homogenizing the energy distribution of the rectangular beam spot on the irradiated surface in a direction of its long or short side. The beam homogenizer includes an optical element having a pair of reflection planes provided oppositely for reflecting the laser beam in the direction where the energy distribution is homogenized and having a curved shape in its entrance surface. The entrance surface of the optical element means a surface of the optical element where the laser beam is incident first.

Abstract: A liquid crystal cell including a first substrate having a first surface; a second substrate having a second surface, wherein the second surface of the second substrate is opposite and spaced apart from the first surface of the first substrate so as to define a region; and within the region defined by the first surface and the second surface, a liquid crystal material adapted to be at least partially ordered and at least one thermally reversible photochromic-dichroic compound adapted to be at least partially aligned and having an average absorption ratio greater than 2.3 in an activated state.

Abstract: The image capturing device according to the present invention is configured so that only the lens barrel having the entrance window and the refractive optical system can be expanded and contracted. Therefore, the structure can be simplified. In addition, the entrance window is located at the in-use position where the entrance window protrudes from the image capturing device body when the lens barrel is expanded, and is located at the not-in-use position where the entrance window is housed in the image capturing device body when the lens barrel is contracted. Therefore, the size of the camera can be reduced. Furthermore, when the image capturing device is not in use, the entrance window is housed in the image capturing device body. Therefore, any barrier is not needed, and the structure can be simplified.

Abstract: The present invention discloses a multilayer dielectric optical structure wherein one of the optical materials in the multilayer structure shows an optically isotropic state above and a birefringent state below a characteristic temperature Tc near the room temperature. The optical structure reflects a predetermined wavelength range of electromagnetic radiation above the Tc but allow the same to transmit through below the Tc. The predetermined wavelength can be the near infrared radiation from 700 nm to 2500 nm, and the optical structure rejects solar heat in warm summer days but admits the same to interior on a colder winter day.

Abstract: The present invention provides a spatial light modulator, comprising: a plurality of pixel units configured as a pixel array wherein each of the pixel units further comprises a memory circuit. The spatial light modulator further includes a bit line for transmitting a data signal to the memory circuit. The spatial light modulator further includes a word line for selecting and writing the data signal to the selected memory circuit. The spatial light modulator further includes a plate line for controlling the memory; and an address decoder for selecting the plate line, wherein the address decoder comprises an address judgment unit constituted by a plurality of first judgment units and further includes a second judgment unit for changing an output from the second judgment unit depending on a result generated by the first judgment unit.

Abstract: A lens module includes a barrel and at least one lens. The barrel includes a cover with a hole defined therein and a hollow cylinder extending from the cover. The barrel comprises a cover with a hole defined therein and a hollow cylinder extending from the cover, and the cover comprises a roughened inside surface facing towards the hollow cylinder. The at least one optical lens is received in the barrel and comprises an optically active part and a peripheral optically non-active part around the optically active part, the optically non-active part comprises two opposite roughened surfaces.

Abstract: The invention provides a display method for displaying an image by deposition of metal fine particles. The display method includes at least depositing metal fine particles, from an electrolytic solution that has at least a metal ion of the metal particles and that is provided between a pair of substrates having at least one translucent substrate, onto a surface of any one of the pair of substrates by imparting one stimulus. A concentration of the metal ion of the metal fine particles in the electrolytic solution after imparting the stimulus is about 200 mmol/l or less. The invention further provides a display device which uses the display method.