Abstract: A projection television system (10) is provided which has a CRT (16) and a projection lens system (13) for forming an image on a screen (14). The projection lens system (13) is characterized by a diffractive optical surface (DOS) which provides color correction for the lens system. The diffractive optical surface (DOS) can be formed as part of a diffractive optical element (DOE) or as part of an existing lens element of the lens system. The diffractive optical surface (DOS) is located between the object side (S2) of the lens' first lens unit (U1) and the image side (S11) of the lens' third lens unit (U3). The distance between the diffractive optical surface (DOS) and the lens' aperture stop (AS) is less than 0.1·f0, where f0 is the focal length of the projection lens (13).

Abstract: A container module for intermodal transportation and temporary storage of dry flowable product includes a pressure tank supported by hanger plates welded to end frames of a support frame defining a standardized container envelope. The pressure tank has a wall with a flat top center section and short flat side sections joined by upper cylindrical intermediate sections and lower cylindrical sections below the flat side sections which blend into a plurality of intersecting, downwardly discharging hoppers. Elongated beam members extending along each side of the support frame tie the hoppers together to resist bending of the suspended tank.

Abstract: Projection lens systems for use in CRT projection televisions are provided. The lens systems include a negative lens unit (U4) which is associated with the CRT during use of the lens system and four lens elements (L1, L2, L3, CR) on the image side of the negative lens unit (U4). Three of those lens elements (L1, L2, L3) are arranged as follows from the long conjugate to the short conjugate of the lens system: a first lens element (L1) which has a weak optical power and at least one aspherical surface; a second lens element (L2) which has a positive focal length and provides most of the optical power of the lens system; and a third lens element (L3) which has a positive focal length and at least one aspherical surface. The last lens element of the system is a corrector lens element (CR) which is located adjacent to the second lens element (L2) and has a weak optical power, at least one aspherical surface, and is substantially flat.

Abstract: Optical systems for use with reflective LCDs (8,9,32,34,36) are provided. The systems include a polarization beam splitter (5) which can be composed of polarization beam splitting cubes (26) having sheet polarizers (30) and/or half wave plates (28) at their mating surfaces. By orienting the half wave plates (28) so that they convert S polarization to P polarization and P polarization to S polarization, the polarization beam splitter (5) can provide a high contrast ratio at a viewing screen between light from the “on” and “off” pixels of the reflective LCDs (8,9,32,34,36).

Abstract: Protection of mitochondria from oxidative damage due to natural or disease processes as well as by the effects of exogenous factors such as incident sunlight, exposure via inhalation to oxidative environmental toxins, consumption of dietary oxidants, and oxidative-stress-inducing cosmetics and pharmaceuticals, radiation therapy, among others, is provided by a composition comprising L-ergothioneine, L-ergothioneine may be prepared in a cosmetically or pharmaceutically-acceptable base to form an agent for topical application to the skin, and for oral or parenteral administration. Effective application and delivery, of L-ergothioneine is enhanced by encapsulation in a liposomes, a preferred embodiment. Diagnostic methods for determining exposure and susceptibility to radiation, radical and reactive oxygen species in mammals is also provided.

Abstract: Projection lenses (13) for use with pixelized panels (PP) are provided. The projection lenses have a negative first unit (U1) which has at least one aspheric surface and a positive second unit (U2) which has three subunits (US1, US2, US3) which have a positive/negative/positive configuration. The lens' aperture stop (AS) is located at the short conjugate end of the lens and is either in the third subunit (US3) or close to that subunit. The lenses are particularly well-suited for use in the manufacture of compact projection systems which employ side illumination of a reflective pixelized panel.

Abstract: Optical systems employing stepped diffractive surfaces (13) are provided. Ray tracing through such systems is performed using the grating equation to represent the stepped diffractive surface (SDS). In this way, the SDS can be used to correct a variety of monochromatic and chromatic aberrations by balancing the aberrations of the SDS against the aberrations of non-stepped optical surfaces in the system.

Abstract: A prism (13) for use in a projection system which employs a digital light panel (35) is provided. The prism includes first (19) and second (21) spaced part surfaces which are oriented such that: (a) light from a light source (33) will pass through the spaced apart surfaces to the digital light panel; (b) light from “on” pixels will undergo total internal reflection at the second surface (21) and be directed into the acceptance angle of a projection lens (39); and (c) light from “off” pixels which reflects from the second surface will be directed away from the lens' acceptance angle.

Abstract: Six-component projection lens systems (13) for use in CRT projection televisions (10) are provided. To provide an improved overall modulation transfer function across the field of view of the lens, the system's first lens element (L1) has an object side surface (S2) which has a best fit spherical surface which is convex to the CRT (16). To provide partial axial color correction, the system's second lens element (L2) is made of a high dispersion material, such as styrene.

Abstract: A unitary guide and shield member (13) for use in guiding time cards (10) to a time and attendance recorder is provided. The guide and shield member serves to (1) guide the time card to feed rolls (16), (2) hold the time card at a substantially constant distance from a light source and a light sensor, and (3) protect the light sensor from ambient light.

Abstract: A method and apparatus for holding a sheet of material during grinding of the edge of the sheet. The method and apparatus comprises supporting one surface of the sheet on a conveyor. A force is exerted on the sheet with a fluid pressure device, either using sub-atmospheric pressure or hydrostatic pressure.

Abstract: A zoom projection lens for use with LCD or DMD panels is provided. The lens has two units U1 and U2, which are moved relative to one another for zooming. It also has a corrector unit (CR) at a fixed distance from the LCD or DMD panel (PP). The corrector unit, which may be a color correcting doublet, is at the object (panel) end of the lens and has a weak power. This unit allows for a high level of distortion and lateral color correction, without unduly increasing the complexity or cost of the lens.

Abstract: Plasma addressed liquid crystal display ribs are produced by introducing a glass paste which includes a curable medium into cavities formed in an intaglio collector to define rib structures, which are transferred from the collector to a surface of a substrate, and removing the curable medium from the rib structures on the substrate surface to generate pores in the rib structures. The substrate having rib structures is then dipped into a solution containing an opaque pigment which is absorbed into the rib structure.

Abstract: Objective lenses employing three lens units U1, U2, U3 having a negative (or weak positive); positive; negative optical power configuration are disclosed. The lenses have a total field coverage of at least 50 degrees with a relative aperture of less than f/5. They employ small lens elements having aspherical surfaces and are designed for mass production, particularly using plastic optical materials. Designs for these lenses do not exist in all-spherical form, because the aberrations, particularly distortion, cannot be sufficiently corrected; however, by using a sufficient number of aspherical surfaces, not only can the aberrations be corrected to a higher degree than a conventional aspherized triplet design, but the sensitivity of the design to manufacturing deviations can also be minimized.

Abstract: Lenses for use with electronic imaging systems, e.g., systems employing CCDs, are provided. The lenses employ at least two lens elements, at least one of which is a dyed plastic lens element whose average percentage transmission for wavelengths between 400 nm and 550 nm is greater than its average percentage transmission for wavelengths between 550 nm and 700 nm. Through the use of such a dyed plastic lens element, the need for a separate spectral response flattening filter is eliminated thus reducing the cost, complexity, size, and weight of the electronic imaging system.

Abstract: An inspection system for and a method of inspecting defects on opposite sides of a glass specimen are set forth wherein a focusing filament is positioned in the light path of an inspection system having an objective lens. The filament is focused to the same plane that the objective lens uses to image a defect on the glass surface, so as to produce a shadow of the filament in the field of view when the objective is focused on either a front or back surface of the specimen. The utilization of the focusing filament provides an absolute surface reference that can automatically compensate for variations of the glass specimen position relative to a plane.

Abstract: Methods for temporarily protecting a surface of a glass article by coating the surface are provided. The methods include forming a stable, hydrophobic, removable film on the surface at the end of the glass manufacturing process while the glass is still at an elevated temperature (e.g., above 175° C.). The film reduces chip adhesion to the surface as a result of cutting and grinding. After cutting and grinding, the film is removed allowing the glass to be used in such processes as the manufacture of liquid crystal displays (LCDs).

Abstract: Asymmetric zonal shim coils and shim sets for magnetic resonance applications are provided. Also provided are Fourier-series based methods for designing such coils as well as symmetric coils.

Abstract: Optical systems for use in digital cameras are provided. The systems can be switched between three optical paths (1,2,3): a first path (1) for through-the-lens (TTL) viewing; a second path (2) for recalling previously taken pictures from a microdisplay (16); and a third path (3) in which pictures are taken using an electronic sensor (15), e.g., a CMOS sensor. The optical systems employ a zoom objective lens unit (10), e.g., a 3:1 zoom, an erector lens unit (12), and an eye lens unit (13). They can also employ an image size adjusting lens unit (11) for equalizing the TTL and recalled images presented to the user.

Abstract: A low energy fuse in extruded as a single ply primary tube 1 from a plastic resin blend with particulate energetic material 2 being internally distributed in a manner known per se, said resin blend comprising a major amount of an orientable polymer, for example, linear low density polyethylene to provide structural integrity and a minor amount of a modifier to impart enhanced particle retentive properties to the tube and preferably also containing a polymer or copolymer to impart melt strength and aid in tube extrusion.