Abstract: The optical coupler couples light output from the single fiber optic into the fiber optic bundle while preserving the numerical aperture of the beam output from the single fiber optic. The optical coupler also preserves any uniformity in s the beam output from the single fiber optic. The optical coupler includes a collimating device such as a magnifying lens and a diffusing device such as a hemispherical lens array. The collimating device collimates the beam output from the single fiber optic into a parallel beam having a diameter substantially equal to a diameter of the fiber optic bundle. The diffuser device diverges the collimated beam for input into the fiber optic bundle by an amount sufficient to reproduce the numerical aperture of light output from the single fiber optic. A wide variety of optical diffuser devices are disclosed, including spherical convex lens arrays, cylindrical lens arrays, pyramidal lens arrays and fresnel lenses.

Abstract: An illuminating apparatus of an endoscope having a bulb disposed to face an entrance end surface of a light guide for illumination to supply illuminating light to the light guide. A concave mirror surrounds side and rear portions of the bulb to converge light emitted peripherally from the bulb in the vicinity of the entrance end surface of the light guide. A convex lens is formed at the distal end of the bulb to allow light emitted forwardly and obliquely forward from the bulb to be incident on the entrance end surface of the light guide.

Abstract: A new vehicle mirror viewing system which is designed for rear view mirrors mounted exteriorly of a vehicle and allows a driver to either view the mirror or an image transmitted from the mirror to a viewing screen mounted interiorly of the vehicle. A fiber optic transmission cable is utilized in conjunction with a two-way mirror to transmit the reflected image from the mirror to the viewing screen. The cable utilizes a large bundle of fiber optic cables, and the ends of the cables are mounted in small blocks which allow only small pixels of light to be transmitted from an image passes through the two-way mirror. With the ends of the cables mounted in arrays within transducers, a composite image can be transmitted from a rear surface of the rear view mirror to the viewing screen.

Abstract: A compact display system including a viewing surface; a beam steering mechanism; a source of light remote from the viewing surface and the beam steering mechanism; and at least one waveguide connecting the source of light with the viewing surface for transmitting illumination from the source of light to the viewing surface. The beam steering mechanism is associated with the waveguide and the viewing surface for scanning illumination transmitted by the waveguide onto the viewing surface. There is a modulator for modulating the source of light; and a subsystem for synchronizing the modulator with the beam steering mechanism, but only the distal end of the waveguide and the beam steering mechanism are located near the viewing surface resulting in a more compact display which can be mounted on a pair of eyeglasses.

Abstract: A polarization independent optical isolator for transmitting a signal ray in a forward direction and suppressing backward transmission comprises: a first and second optical isolation unit for receiving, transmitting, and outputting signal rays in the forward direction and for suppress backward transmission of any rays; and a reflection unit for coupling to first and second optical isolation unit by directing the outputted signal ray from the first optical isolation unit to the second optical isolation unit, the signal ray received by the first optical isolation unit transmitting in the opposite direction to the outputted signal ray from the second optical isolation unit. A reflection protection unit may be provided to prevent undesired reflection at inlet of the optical isolator. A optical filter for reflecting a component having a predetermined wavelength and transmitting remaining component may be used for the reflection unit. An optical detector may be used for monitoring the remaining component.

Abstract: A polarization independent optical isolator for transmitting a signal ray in a forward direction and suppressing backward transmission comprises: a first and second optical isolation unit for receiving, transmitting, and outputting signal rays in the forward direction and for suppress backward transmission of any rays; and a reflection unit for coupling to first and second optical isolation unit by directing the outputted signal ray from the first optical isolation unit to the second optical isolation unit, the signal ray received by the first optical isolation unit transmitting in the opposite direction to the outputted signal ray from the second optical isolation unit. A reflection protection unit may be provided to prevent undesired reflection at inlet of the optical isolator. A optical filter for reflecting a component having a predetermined wavelength and transmitting remaining component may be used for the reflection unit. An optical detector may be used for monitoring the remaining component.

Abstract: A CCD video scope is mounted in a camera head and has an image capture optical system defining an optical axis, and a half mirror with a light source offset from the optical axis and facing the half mirror, which coaxially defracts illumination light in relation to the optical axis. The resultant optical image is incident on a CCD element also lying on the optical axis. Bundled fibers are mounted between the light source and the half mirror, and have a diameter of less than 250.mu. and a length of 10 times or more the diameter. The light source has a light focusing lens with an exit angle equal to or less than the maximum light incident angle of the optical fiber elements.

Abstract: A light beam line projecting device having a combination of two or more lenses which magnify in only one dimension; i.e., cylindrical and plano-cylindrical lenses, which are arranged so that the lenses' physical proximity to one another can be manipulated in order to dictate the angle of light emitted from the lens system. The axes of curvature of the respective lenses are maintained in the same plane by a lens holder comprising a stationary lens holder which houses one of the lenses, a sliding lens holder which houses the other lens, and a rotating adjustment ring which provides both the outside housing for the system and the means of adjustment of the proximity of the lenses relative to each other. The sliding lens holder has projections that slide longitudinally in grooves in the stationary lens holder and projection that slide circumferentially in grooves in the rotating adjustment ring.

Abstract: A light guide illumination system is provided for coupling light from an illumination source to a number of output "light guides", which are used for a variety of purposes, such as illuminating pools, spas, hazardous material zones, jail cells, and other applications where direct lighting is dangerous, difficult to maintain, or subject to vandalism. The illumination system employs an illumination reflector which has been customized to maximize the efficiency of light transmission between the illumination source, such as an arc lamp, and the cores of the output light guides. A method of fabricating the customized illumination reflector includes mapping the radiation patterns of the particular illumination source to be utilized, creating a database of those radiation patterns, and utilizing the database to generate an optimal illumination reflector configuration. The computer-generated reflector will virtually always be a non-conic section, because the illumination source is not ideal.

Abstract: A gradient index (GRIN) lens couples light from a single fiber optic into a fiber bundle or directly into the input port of an illumination device, such as a medical illumination device. The single fiber optic provides a high intensity beam of light having a high NA. An entry face of the GRIN lens is positioned adjacent to an exit aperture of the fiber within the near field of the fiber and thereby receives a beam having a substantially uniform cross-section, rather than a Gaussian cross-section as would occur with the GRIN lens positioned in the far field of the fiber. An exit face of the GRIN lens is positioned adjacent to the fiber bundle or input port of the illumination device. As such, the GRIN lens effectively images the exit aperture of the fiber of the input aperture of the fiber bundle as input port.

Abstract: A lamp projecting a high-intensity optical beam of spectral radiation, with an IR-extracting (cooling) array including an IR-dissipating "black-box" arranged to receive IR and convert it to box-heat, plus an IR-diverting "hot-mirror" interposed along the beam to divert (only) the IR to this "black-box".

Abstract: An illumination optical apparatus of this invention is small in size as a whole and capable of illuminating a plurality of illumination areas on a mask. The illumination optical apparatus illuminates a plurality of areas on a mask to be projected/exposed. This apparatus includes at least two light sources, a focusing optical system for focusing light beams from the respective light sources to form light source images, a light guide having incident ends equal in number to the light sources and exit ends equal in number to the illumination areas and serving to guide light beams from the respective light source images incident on the incident ends to the exit ends, and an illumination optical system for irradiating the light beams from the respective light source images emerging from the exit ends of the light guide onto the corresponding areas on the mask.

Abstract: An imaging arrangement has a first lens array with a focal surface and a tapered optical fiber bundle arranged with one end face coincident with the focal surface of the lens array. Another end of the bundle is coincident an optical device. The optical device may be a second lens array, an image capture device, a photographic plate, or an electronic image capture device such as a CCD array. The fiber bundle may comprise a single graded index fiber connecting the first and second lens arrays. An integral transmission screen may be provided to project a spatially inverted integral image onto the first lens array.

Abstract: Optical systems for endoscopes, borescopes, dental scopes, and the like which are characterized by having three groups of lenses of positive optical power and an external entrance pupil. Typically, all three groups of lenses are displaced from the pupil and focal planes. As a consequence, the displaced groups take part in the image transfer as well as in the pupil transfer. The optical power requirements can thus be shifted from one group to another, distributing as well as reducing the overall power requirement. Moreover, the aberration correction can also be shared between these groups. The first group, which conventionally has the highest optical power, and consequently a large amount of aberrations to be corrected, can in this way transfer some of the optical aberration correction to the other groups. The sharing of the optical functions and aberration correction results in a fully integrated optical system.

Abstract: An endoscope comprising an elongated endoscope body having a distal end, an objective carried by the endoscope body adjacent the distal end and an elongated fiberoptic image guide in the endoscope body for transmitting an image proximally. The objective has a curved proximal surface and the image guide has a curved distal end surface which has a shape which generally conforms to the shape of the curved proximal surface of the objective. These surfaces are in close proximity to provide an interface and an index matching medium is in the interface. The objective provides a curved image plane substantially at the interface and the image plane has a shape which generally conforms to the shape of the curved proximal surface of the objective.

Abstract: An optical switching device and method for selectively optically connecting at least one input fiber in a fiber bundle to at least one output fiber in a fiber bundle. To perform the optical switching, a light directing mechanism is provided proximate a face of a fiber bundle that contains the input fiber. The light from the input fiber is directed toward the output fibers by varying the orientation of the light directing mechanism relative the face of the fiber bundle. The light directing mechanism thereby enables the light from the input fiber to be selectively directed to each of the output fibers. By selectively controlling the orientation of the light directing mechanism, the light from the input fiber can be scanned to any number of output fibers, thereby producing a 1.times.N optical switch.

Abstract: An optical apparatus that enables an object at a first location to be viewed from a second remote location. The optical apparatus includes at least one objective lens assembly that views the object at the first location. The objective lens assembly focuses the viewed image onto the input plane of an image conduit. The fiber optic conduit propagates the image to the second remote location, wherein the image is projected from the image conduit onto the back surface of a substantially transparent planar member. The back surface of the planar member is not highly polished. As a result, the image projected onto the back surface does not pass directly through the planar member. The reflections caused by the unpolished nature of the surface allow the image to be viewed on the back surface of the planar member through the body of the planar member.

Abstract: A laser system which utilizes a reflective objective lens includes a closed loop servo and beam profiling system to provide improved uniformity of the laser beam impinging on the work piece. The laser beam is passed through an aperture to pattern the work piece. A beamsplitter separates the laser beam into workpiece and diagnostic beams. The workpiece and diagnostic beams are both passed through identical reflective objective lenses, to accurately measures performance of the work piece beam. Preferably, a third reflective objective lens collimates the diagnostic beam and directs it to a beam analyzer where the uniformity can be accurately assessed. The information determined by the beam analyzer is then used to position a pre-aperture converging optic (PACO) located between the laser source and the aperture. Adjustments in the x- and y-dimensions of the PACO lens change the angular uniformity at the aperture.

Abstract: A focal-plane detector imaging system that can tolerate higher intensity optical beams than prior systems, without a reduction in the system's field-of-view, comprises an imaging lens, a fiber optic array positioned at the image plane of the imaging lens and an image detector positioned at the output end of the fiber optic array. The optical fibers that make up the fiber array have core diameters that are larger than the focal spot of an incoming optical beam. In operation, the fiber array transfers the imaged scene to the image detector at its output end. The focused optical beam is also transferred to the image detector at the array's output end, but its diameter is enlarged due to its angular divergence. In a preferred embodiment, the f-number of the imaging lens, diameter of the fiber cores, and the lengths of the fibers in the array are designed so that, as the power of an incoming optical beam increases, the optical damage threshold of the fiber array is reached before that of the image detector.

Abstract: A laser system includes a laser diode source with a plurality of output facets. The laser diode source produces a divergent output along an emission path. A microlens is optically coupled to the diode source. The microlens receives the divergent output along the emission path and modifies the divergence of the output in a high numerical aperture direction of the microlens A power source is coupled to the laser diode source.

Abstract: A fiber image guide is used for establishing bit-parallel computer data communications. A fiber image guide is located between an input laser array driven by a first electrical circuit or computer chip and a receive detector array coupled to a second electrical circuit or computer chip for transmitting bit-parallel data from the first electrical circuit or computer chip to the second electrical circuit or computer chip.

Abstract: A system is provided for producing a three dimensional object from a reactive liquid medium capable of being solidified. The object is constructed from many successive layers of the solidified reactive liquid medium when subjected to appropriate synergistic stimulation. A reservoir contains both the reactive liquid medium and an underlying supporting, substantially immiscible, non-reactive liquid medium. To begin forming the object, a platform within the reservoir is initially positioned at a depth equal to the thickness of a first layer to be solidified, and continues to support the object being constructed. The synergistic source radiates toward the reactive liquid medium and imaging apparatus defining a three dimensional object of required configuration selectively controls the size and shape of that part of a new two dimensional layer to be solidified. At least part of the new layer is solidified, after which a further layer is applied.

Abstract: In an optical system, a lens array comprises a plurality of gradient index lenses arranged in a plurality of rows. The lens array is aligned with an image bar having a plurality of pixel rows in such a manner that each pixel row in the image bar is symmetrically arranged with respect to lens rows having fields of view encompassing the pixel row.

Abstract: A lamp projecting a high-intensity optical beam of spectral radiation, with an IR-extracting (cooling) array including an IR-dissipating "black-box" arranged to receive IR and convert it to box-heat, plus an IR-diverting "hot-mirror" interposed along the beam to divert (only) the IR to this "black-box".

Abstract: The multifiber fiber-optic element for use in image transfer comprises a large number of packed optic fibers cemented together at least at the ends, and microlenses formed on at least one of the two end facets of the fibers, whereby the optical invariant of the element can be changed by said microlenses. A method for providing the microlenses light redistributing structures is also disclosed.

Abstract: A faceplate (10a) for directly viewing an image generated by a digital micromirror device (10b), which generates images by tilting tiny mirror elements (11) to on or off positions. The faceplate (10a) has a number of optical fibers (12) parallel to each other and closely spaced together. The ends of the optical fibers (12) are the top and bottom surfaces of the faceplate (10a). Both ends of each fiber (12) is sliced at an angle determined by the on position of the mirror elements (11). This permits light to travel down the fibers (12) and be reflected back to the viewer by only those mirror elements (11) that are on.

Abstract: Apparatus for coupling a light beam from a light source to a light fibre with reduced heating of the light fibre. The light source has a lamp, a condenser lens, and a dichroic infra-red filter disposed along an optical axis between the lamp and the light fibre. The apparatus is adapted for operation with plastic light fibres that have a softening temperature of less than 100 degrees Celsius. The apparatus comprises light fibre connector that secures the light fibre on the optical axis. A non-visible radiation filter is located on the optical axis in a broad part of the light beam between the dichroic filter and the light fibre and reduces non-visible radiation energy remaining in the light beam following the dichroic filter. A beam restrictor is located on the optical axis adjacent to, and thermally isolated from, the light fibre connector.

Abstract: A light source device for endoscopes comprising a light source lamp, a light guide fiber bundle and a collector optical system of the light source device for collecting rays emitted from the light source lamp onto an end surface of incidence of a light guide fiber bundle, and satisfying the condition shown below. This light source device is compact and allows rays to be incident onto the light guide fiber bundle at a high efficiency.sin.theta..ltoreq.G(.theta.)<tan.theta.

Abstract: An image pickup device using a solid-state image sensor adapted to provide an optical component having a multiple curved surface, polyhedral surface, symmetric cylindrical surface, axially symmetric aspherical surface or asymmetric refracting surface in an objective lens system, or lengthen a shape of an image formed on an exit end face of an illuminating optical system in a direction parallel to a scanning direction of the solid-state image sensor, or select an angle made by a line segment connecting between the centers of individual exit end faces of two illuminating optical systems with the scanning direction of the solid-state image sensor to .+-.40.degree. or less, or extend a shape of an aperture of a stop in a direction parallel to the scanning direction of the solid-state image sensor, in order to make it possible to fabricate the device in a small size and at a low cost and eliminate moire and false color without reducing resolving power.

Abstract: An optical data distribution system, for densely packed transmitter/receiver modules, of a phased-array antenna which includes an optical source and a plurality of light bars for distributing the optical energy to the photoconductor of each respective transmitter/receiver module. Each bifurcated light bar has an entrance aperture coupled to the optical source through a star coupling and branched light distributing elements branching from the entrance aperture air gap bridging optics to direct the light from each output aperture of fiber bundles to the photodetector.

Abstract: A low cost optical viewing device for viewing a remote location comprises three sections of an objective lens, relay lens and eye piece wherein all three sections of the present invention are free of conventional and relatively expensive glass rods. The preclusion of the glass rods leads to an overall lower cost (e.g., disposable) optical viewing device (e.g, borescope and endoscope). In addition, the optical viewing device of the present invention achieves lower cost by the use of a combination of molded plastic lenses and glass lenses. In accordance with still another important feature of this invention, the method of illuminating the remote location to be viewed is accomplished by using low cost plastic optical fibers which are twisted so that the field of illumination is increased and may be tailored to match (or be no less than) the size of the field of view of the optical viewing device. Still another significant feature of the present invention is its low weight.

Abstract: A method and apparatus for relatively moving energy across an array of optical fibers. The energy may be scanned across the fiber array. A dielectric mirror mounted on a galvanometer scanner is moved so as to cause successive pulses to irradiate different segments of the fiber optic array. As a result, each fiber receives radiation having sufficient fluence while reducing the energy per pulse (or the cw equivalent). Rather, than move the energy across the fiber array, the fiber array itself may be moved. One possible manner of movement is use of a piezo electric stack.

Abstract: An instrument is provided for migration through a lumen of a tubular part. The instrument comprises a distal section including a distal bladder adapted to be inflated and deflated; a proximal section including a proximal bladder adapted to be inflated and deflated; and, an intermediate section including an intermediate bladder adapted to be inflated and deflated. A device is associated with the distal section. A coupler is interposed between the distal and intermediate sections for movably coupling the distal section to the intermediate section. A drive mechanism is coupled between the distal and intermediate sections for effecting movement of the distal section about the coupler. A controller is provided for selectively inflating and deflating the distal, proximal and intermediate bladders to effect migration of the distal, intermediate and proximal sections through the lumen.

Abstract: An observation system for an endoscope has an entrance end face upon which an image is incident and an exit end face from which the image exits. The system comprises an image guide fiber of a very small diameter to allow transmission of the image, an object optical system arranged in front of the entrance end face of the image guide fiber, and a reproduction optical system arranged on the back side of the exit end face of the image guide fiber. The reproduction optical system is comprised of an eyepiece optical system and relay lens system. The maximal exit numerical aperture of the object optical system is greater than the maximal entrance numerical aperture of the reproduction optical system.

Abstract: In the image display device of the present invention, a number of light scattering layers formed on the ends of optical fibers are spotwise distributed on the image display surface, and said scattering layers are comprised of a transparent resin having a granular light scattering material added or very small depressions and projections produced on the surface. Further, the method of manufacturing the image display device according to the present invention is characterized by arranging the end faces of a number of optical fibers to the image display surface, then applying a photosensitive resin onto the image display surface, hardening the resin around the end of the respective optical fibers on the image display surface by the beam of light from the incident surface to form light scattering layers, then removing the unhardened portions.

Abstract: An optical fiber laser device, used as a pulse laser device, has a spherical lens made of optical glass having a refractive index of 2 or less. The spherical lens is provided on an extreme end of an optical fiber which guides a pulse laser beam. An object side of the spherical lens is projected externally of a base housing the spherical lens therein.

Abstract: In a system for measuring moisture content of powder, such as powdered milk while the powder is being dried, the powder is contained in a fluidized bed and a fiber optic probe is inserted through the wall of the container of said bed to be immersed in the fluidized bed. The fluidized bed continuously scrubs the outer surface of the probe window and prevents it from being coated with the powder. Near infrared light is transmitted through a cable optic fiber and said probe to irradiate the powder in said fluidized bed and is reflected back from the powder into said probe and transmitted by said fiber optic cable to a spectroscopic analyzing instrument. The fiber optic probe includes a sapphire rod having a back surface abutting the end of the fiber optic cable and an angled front surface. The front of the probe is closed by a quartz window spaced from the angled front surface of the sapphire rod and held in position by an inwardly directed flange on the outer tubular casing of the fiber optic probe.

Abstract: A method of calibrating an incoherent optical fibre bundle to be used for image transmission, by determining the relative input to output position of each fibre in the bundle and processing the light output of the bundle accordingly. The calibration technique comprises, defining an address array capable of defining for the optical bundle the position of the ends of individual optical fibres in the bundle; transmitting a series of test images into one end of the optical fibre bundle, each test image illuminating a substantial proportion of the pixels and the combination of which selectively illuminate each pixel of the address array; analysing the output of the fibre bundle with reference to the transmitted images to produce a reference table of input to output for the fibres; and using the reference table to deconvolve an image transmitted along the fibre bundle. Calibrated incoherent optical fibres are of particular use for examining nuclear reactors, chemical vats and other harsh environments.

Abstract: A ventilated fiber optic bushing includes a bundle of elongated, optical fiber light guides having generally cylindrical diameters, each light guide having a first end remotely emitting light and terminating in a convex second end in a common plane. The bundle is held in a desired shape receiving light through a transparent window having the same size and shape as the fiber bundle, the window being transversely disposed in an aperture of a light projector wherein a cooling fan within the projector draws external air through the aperture around the window. A rigid tube holds the bundle of light guides in the desired shape within the aperture projector with the convex second ends of the guides against the transparent window. A portion of the external air drawn through the projector aperture is drawn longitudinally through interstices between the light guides and transversely between the interstices formed by the convex light guide ends and the transparent window.

Abstract: A check Sorter-Imager-Processor with two (or more) imaging sites, each lit by a beam through a fibre-optic array, with a lens focusing the beam on each array such that a shift in lens-focus reduces output light from the array--the two sites being thus "matched" in light-intensity by merely focus-adjusting these lenses.

Abstract: A method of attaching a Gradient Index (GRIN) lens to an optical fibre in the course of making an optical instrument for use at a working distance. The method is especially suitable for making an optical instrument with an extended working distance. In the method, a test object, a GRIN lens, and an optical fibre are provided. The GRIN lens is placed at the working distance from the test object, and is axially aligned with the test object. The optical fibre is placed adjacent to, and axially aligned with, the GRIN lens to form an image of the test object at the proximal face of the optical fibre. The distal face of the optical fibre is placed adjacent to the proximal face of the GRIN lens. At least one of the GRIN lens and the optical fibre is moved axially with respect to the other until the image of the test object is in focus. This determines an optimum axial spacing between the GRIN lens and the optical fibre.

Abstract: A visible helium neon beam is used as an aiming beam to establish a spot at which a carbon dioxide beam also focuses. The carbon dioxide beam is then employed to vaporize biotic material. A distal end of an articulated arm may couple with the micromanipulator to direct the carbon dioxide beam from the laser through a waveguide and into the micromanipulator. Another aspect of the invention includes introducing the aiming beam into the waveguide through a dichroic mirror positioned in a knuckle joint of the articulated arm. In one embodiment, a laser diode generates the visible light of the aiming beam, and is disposed proximate to the distal end of the articulated arm.

Abstract: An imaging optical system which is designed so as to be connecatable and disconnectable to and from an image guide, and arranged in a camera control unit. This imaging optical system is arranged between an image guide attached to the camera control unit and an image pickup device accommodated in the camera control unit in a condition integrated with said members, equipped with no eyepiece lens, used exclusively with a monitor TV and designed as a zoom lens system.

Abstract: This invention relates to a system for shifting the frequency and wavelength of a laser beam at high efficiency, both pulsed and continuous wave, said system consisting of a hexagonally packed array of optical fibers with non-linear optical cores (1) surrounding by cladding (2) having their end faces (3) optically polished. Input laser beam (4) is split via micro lens array (5) into an array of micro laser beams (6) which matches array of cores (1) where they are frequency converted, said converted beams emerging as micro beam array (7) which is collimated by the second micro lens array (8) into the phase-locked output beam (9).

Abstract: In an optical coupling system for a fiber laser, a cylindrical lens extends parallel to a number of aligned light sources and a series of aligned input ends of optical fibers facing the light sources. Output ends of the fibers pass light to a solid state medium in a laser cavity. A block with precision grooves holds the fibers to align them with the lens and the images of the light sources. The cylindrical lens is biaspheric with a longitudinal axis and two refractive surfaces whose axially transverse cross-sections follow paths other than the paths of a conic section.

Abstract: An improved endoscope employing phase conjugate imaging principles includes a first transmissive member for transmitting light rays received at a distal tip of the endoscope to an intermediate filter location. A phase conjugate filter at the intermediate filter location redirects the rays, according to the precise inverse of their incoming direction, along a second transmissive member optically identical to the first. Rays exiting the endoscope bear the exact relation to one another as when entering the tip of the endoscope and may be imaged or displayed on an eyepiece or video screen.

Abstract: A device is provided for expanding, reshaping, modifying the intensity distribution and projecting a beam of radiation such as light. The present invention comprises a four sided, internally mirrored tube of polygonal (i.e., rectangular) cross-section wherein the cross-sectional area of the tube expands (generally linearly) with respect to tube length from a first end to a second end. The first end of the tube is associated with a plano-concave (or equivalent) lens and the second end of the tube is associated with a generally flat pane exit optic which includes optical edging for refracting perimeter rays back into the desired field of view. A practical application for the present invention is laser photogrammetry wherein typically it is desired (1) to expand a laser beam of circular cross-section, (2) to reshape the beam into a desired cross-section, usually rectangular, and (3) to project the reshaped beam upon a distant surface.

Abstract: A camouflage device uses fiber optic cables to conceal an object by routing light around the object using the fiber optic cables. Lenses are used to focus light into and transmit light coming from each end of the fiber optic cables. Each lens is connected to one end of a conical section with the other end connected to one end of a fiber optic cable, while at the other end of the fiber optic cable is another attached conical section and lens. Each lens configuration having a pair of lens and conical sections connected by a fiber optic cable is positioned around the object to be concealed in such a way that any light entering a lens is transmitted around the object to be concealed by the fiber optic cable attached to the lens and then out the other lens of the lens configuration.

Abstract: A method of making an optical semiconductor element module having an optical semiconductor element and a receptacle with which a ferrule of an optical fiber connector can couple by inserting the ferrule into the receptacle, which is of a receptacle type of a construction wherein an optical fiber attached to the ferrule optically couples with the optical semiconductor element comprising steps of: inserting a bundle optical fiber ferrule incorporating a bundle optical fiber having a great numbers of cores, of which first outer diameter is approximately equal to a second outer diameter of the ferrule, into the receptacle; observing light emitted from the optical semiconductor element, or, in case that a lens is incorporated in the optical semiconductor element module, light emitted from the optical semiconductor element and converged by the lens incorporated in the optical semiconductor element module, through the bundle optical fiber; and adjusting a position of the receptacle, or of the optical semiconductor e

Abstract: A viewgraph projector having a light above the transparency receiver and jecting downward through the transparency is provided. The projected image is received below the transparency by a condenser lens and further transmitted by a flexible fiber-optic cable. A projecting lens is provided at the output end of the fiber-optic cable for projecting the images to a screen. Structurally associated with the projecting lens is a device or means which enables removably affixing the projecting lens relative to a suitable support in a conference room environment, which device may for example constitute a clip, hooking means, clamp, or weights. This enables a subset of the aforesaid elements comprising the light source, transparency receiver, and condenser lens to be located independently of the projecting lens, as for example, to locations where they do not obstruct the audience's field of view or where backscattered illumination from the light source does not annoy the audience.