Abstract: The present invention provides an optical module, a plug for connecting an optical fiber, or an optical coupler provided with a configuration that permits the connection of an optical fiber without using a ferrule. For this purpose, the optical module, the plug for connecting an optical fiber, or an optical coupler equipped with the same is provided with: a substrate (14); an optical device (16) mounted on the substrate; a connecting optical fiber (18), one end of which is positioned with respect to the optical device, and the distal end of a transmitting optical fiber to be connected is positioned with respect to the other end thereof; and a guide (26) for guiding the distal end of the transmitting optical fiber to be connected. The distal end of the transmitting optical fiber is positioned with respect to the first end of a connecting optical fiber by disposing the distal end of the transmitting optical fiber in the guide.

Abstract: To effectively make a mesh of out lines between pixels by a pixel diffusion and at the same time to facilitate a focusing of an image by the observer, an optical filter for diffusing each pixel of a display device into a plurality of parts by utilizing diffraction or refraction is interposed between the display device having an image pattern in a mosaic form and an observer. The optical filter surface performs the pixel diffusion so that a sight angle, of a gap which does not pass light between the neighboring pixel after the pixel diffusion, as viewed from the observer on the focal plane on which the image displayed by the display device is observed by the predetermined observer is substantially a recognizable limit view angle of the observer.

Abstract: A fiber optic module includes front adapters for connection to fiber optic connectors, and rear adapters for connection to fiber optic connectors. The module includes two circuits having passive optical couplers inside, and adapters exposed along the front and the rear of the module. The module is usable in cross-connect applications with itself or with other modules. The adapters are selectively connectable to fiber optic connectors. The front adapters of the module include two receive input ports and two transmit output ports. The front of the module also includes two visual indicators, one for each circuit. The visual indicators include a lens cap at least partially transparent to visual light in light communication with an optical fiber. The rear adapters of the module include two transmit input ports and two transmit output ports. Monitor ports are also located on the rear for both the transmit and receive signals.

Abstract: A method of producing a modulated light source including the steps of providing a modulator, fiberlessly coupling a laser diode light source to the modulator and enclosing the modulator and the laser diode light source within a housing together with output optics operative to direct modulated light from the modulator into an optical fiber extending outwardly from the housing.

Abstract: A microscope is disclosed for observing a magnified area. Fade-in means arranged in the path of the rays of the microscope reflect a thin focused beam of light into the path of the rays. The beam of light is deflected or modulated by deflecting means to supply an image that can be recognized by an observer. The image may be projected onto the object either directly or indirectly, for example through a diffusing screen.

Abstract: The present invention provides a method and system for dispersion compensation for a composite optical signal in an optical fiber transmission system. The composite optical signal includes a plurality of channels, each of the plurality of channels includes a band of wavelengths, where the bands of wavelengths have unwanted dispersion and dispersion slope. The present invention includes propagating the composite optical signal in a forward direction; separating the wavelengths in the band of wavelengths in each of the plurality of channels, where the each of the wavelengths in the band is spatially distinguishable from the other wavelengths in the band; spatially separating each band of wavelengths in the plurality of channels; and reflecting the spatially separated bands of wavelengths toward a return direction, where dispersion is added to the reflected bands of wavelengths such that the unwanted dispersion and dispersion slope are compensated.

Abstract: A projection monitor and a method of displaying an output image on a viewing screen of the monitor utilize a number of reconfigurable holographic optical elements (HOEs), allowing the components of the monitor to be physically arranged in a compact configuration. The reconfigurable HOEs may be designed to perform simple optical functions that are commonly associated with traditional optical devices, such as those performed by lenses, prisms and mirrors. However, the reconfigurable HOEs are also designed to perform sophisticated optical manipulations, such as varying the light intensity with respect to a specific direction. Each reconfigurable HOE includes a hologram that is sandwiched between two electrode layers. The hologram is a holographic photopolymeric film that has been combined with liquid crystal. The hologram has an optical property that changes in response to an applied electrical field.

Abstract: The invention is a double chirped mirror and a method of constructing a double chirped mirror for a frequency range of electromagnetic radiation, comprising specifying a design including a plurality of layers, the plurality of layers being transparent to the electromagnetic radiation and having refractive indices which vary between layers in the plurality of layers, and wherein for a first set of layers the optical thickness of alternate layers in the set of layers varies monotonically and the total optical thickness of a layer and the two adjacent half layers in the set of layers varies monotonically. The design is optimized by adjusting the optical thickness of layers in the plurality of layers.

Abstract: The purpose is to provide an illumination device for constructing a compact, light weight and inexpensive display device. The illumination device is provided with a light source for emitting light, and a holographic optical element for deflecting entering light to form light to illuminate a rectangular region, wherein the holographic optical element is arranged in contact with either the top or the bottom surface of a glass plate, and light emitted from the light source enters the glass plate through a side surface of the glass plate and is directed to the holographic optical element, such that the principal rays of the light enter the holographic optical element approximately perpendicular relative to one diagonal of the rectangular region.

Abstract: A packaging assembly (10) for a photonic device (12) including a bulkhead connector (40) that eliminates the fiber pigtail in the prior art. The photonic device (12) is mounted within a cavity (14) of a housing (16) and is optically aligned with a lensed end (18) of a fiber (20). The fiber (20) extends into and is soldered to a cylindrical ferrule (24). The fibered ferrule (24) is positioned within an opening (28) extending through an outer wall (30) of the housing (16) so that it extends outside of the housing (16). The ferrule (24) is soldered to the housing (16) in a hermetic seal. The bulkhead connector (40) is mounted to the housing (16) in a position where the fibered ferrule (24) extends partially into a bore (60) extending through the connector (40). An optical connector (64) attaches to the connector (40) so that a fiber (68) extending from the optical connector (64) is inserted in the bore (60) and aligns with the fibered ferrule (24).

Abstract: Diffraction optical element used in a scanning optical apparatus as a scanning optical element has a diffraction grating formed on a substrate. The diffraction grating has a tilt portion for generating a power and a wall portion connecting one end portion of the tilt portion to the substrate. The wall portion is tilted within a predetermined range with respect to a normal of the substrate surface. The tilt angle of the wall portion of the diffraction grating with respect to the normal of the substrate continuously changes to increase as a distance away from an optical axis of the diffraction optical element becomes large.

Abstract: A beam scanning system including: a light source; a deflection disc rotatably installed over the light sources and having a hologram pattern on each of the upper and lower surfaces thereof, for diffracting beams emitted from the light source; and a plurality of mirrors for reflecting beams that have been diffracted by the deflection disc, to change the diffracted paths of the beams. Each of the upper and lower hologram patterns is formed with a low density relative to a one-sided hologram pattern.

Abstract: An infrared lens and detector system and associated method are disclosed that utilize infrared lenses to form an internal entrance pupil at which an internal aperture stop is placed to control the intensity of infrared radiation focused on the infrared detector. In more detailed respects, the infrared lens is an assembly including a first infrared lens, a second infrared lens spaced from the first lens to form a pupil between the first and second lenses, and an aperture stop disposed proximal the pupil. The aperture stop may have a fixed diameter or may have an aperture stop that is manually or automatically adjustable depending upon the intensity of the infrared radiation being viewed. Significantly, this lens assembly may be sealed for improved performance particularly in extreme conditions. In more detailed respects, the lens assembly forms a wide-angle lens and includes a diffractive surface on the second lens to reduce color aberrations and improve performance.

Abstract: Data loss is reduced and bandwidth efficiency improved while tuning an optical add/drop device comprising a hitless wavelength-tunable optical filter. The hitless wavelength-tunable optical filter includes a broadband reflective surface and a tunable filter surface, the reflective surface and filter surface positioned adjacent to each other. Hitless tuning of the device is accomplished by changing the point at which an optical beam strikes the filter surface along a constant wavelength channel track whenever the beam is incident to the filter surface region. Realignment to a position associated with a new wavelength channel track is performed with the optical beam incident to the reflective surface region. Repositioning the optical beam to the filter region occurs at a location corresponding to the new wavelength to be added/dropped and subsequent optical beam realignment within the filter region is along the new wavelength channel track.

Abstract: A system for producing a white-light interference hologram includes a camera adapted for recording a first and a second bitmap image of a scene from separate vantage points, and the separation distance of the vantage points, a computing engine adapted to compute three-dimensional x, y, and z characteristics of an interference hologram topology for the scene from the bitmap image and separation data, wherein x and y are two dimensional locations of bits in a bitmap of the topology and z is a depth dimension for each x,y bit, and a printer adapted to print in color the x,y bitmap, and to create the depth dimension z at each x,y bit location, providing thereby a three-dimensional interference hologram topology for the scene. In a preferred embodiment the depth dimension is created by electrophoresis, using a medium having an electrophoretic gel layer, with the ink applied to the gel in a bit-mapped pattern being ionic in nature, and capable of being migrated in the gel layer by electrophoresis.

Abstract: An optical fiber conduit comprising an optical fiber core surrounded by a cladding with a reflective material or holder and/or reflector attached adjacent to or in contact with the cladding covered optical fiber core along its longitudinal length and includes a plurality of illuminators that are formed by uniform cuts in the optical fiber core to emit reasonably even light perpendicularly along the length of the conduit outwardly. The light pattern can be made to emit various beam patterns from very narrow to very wide by altering the shape of the optical fiber core and/or by the cuts. The cut optical fiber is embedded in a clear environmentally protective coating to protect the cuts from dust and moisture and to maintain the alignment of the holder and/or reflector with optical elements and the optical fiber core.

Abstract: Right and left image taking optical systems are respectively composed of an objective optical system forming an image of an object, and a relay optical system relaying the image formed by the objective optical system on the corresponding region on the CCD. At the surface of the image formed through each of the objective optical system, a field stop is disposed to shield a region on the CCD that does not correspond to itself. Each of the field stops is embedded in a field stop frame. The field stop frame penetrates the corresponding field stop holder in the vertical direction and is rotatably held. Each of the field stop holders is movably supported by a base frame such that it can slide in a direction perpendicular to the optical axes of both of the objective optical systems.

Abstract: A microscope frame structure having a front brace for added stability and having a dual plate structure. The front brace is rigidly coupled to the front ends of an upper portion and a base portion. The upper portion then carries optical elements such as a camera for instance. In effect, the optical elements thus reside on a bridge structure, with substantially the same structural support at both ends of the bridge. The arrangement is particularly useful in automated specimen imaging and analysis systems. The dual frame is composed of an upper plate, which supports a sample, a lower plate which contacts an elevating screw, and a spacer post in between the upper plate and lower plate. This configuration allows for more stable movement of samples.

Abstract: Disclosed is a curved surface element (e.g., light bulb, ornament, light pipe, etc.) which has at least a portion thereof (inner or outer surface) covered with a holographic diffraction grating which was constructed to be essentially distortion free on said curved surface, whereby such diffraction grating diffracts light to emit color to the observer. The diffraction grating can take for form of a holographic optical element (HOE) attached to the curved surface or a diffractive holographic optical pattern (HOP) embossed into the curved surface.

Abstract: In accordance with the invention, an optical fiber grating device is made by providing a fiber with an electrically actuable component optically responsive to voltage or current and a plurality of conductive elements to locally activate the component and thereby to produce local optical perturbations in the fiber. In a preferred embodiment, a fiber is provided with a core of liquid crystal material and a plurality of periodically spaced microelectrode pairs. Application of a voltage to the microelectrodes results in a periodic sequence of perturbations in the core index which produces a grating. When the voltage is switched off, the grating switches off. Other embodiments utilize helical conductive elements.