Abstract: A method of making a low friction bearing for use when immersed in a liquid particularly water is provided comprising a synthetic resin composition which includes powders of a rice bran ceramic, carbon rice bran ceramic or both which are uniformly dispersed in a synthetic resin. The weight ratio between the RBC or CRBC powders and the synthetic resin is 30:90 to 70:10.

Abstract: A matrix assisted laser desorption and ionization system is provided. The system includes a mass spectrometer for analyzing at least one sample. The mass spectrometer includes a sample receiving chamber for receiving a sample under a vacuum. A UV laser is provided for producing a UV beam along a first beam path that does not intersect with the sample. A beam expander is provided in optical communication with the UV laser beam to expand the diameter of the beam. A focusing system is provided in optical communication with the beam expander to focus the laser beam propagating from the beam expander to a predetermined minimum spot size. The focusing system is located along the path of the beam propagating from the beam expander so that the beam strikes the approximate optical center of the focusing system. A high reflecting mirror is provided in optical communication with the focused beam propagating from the focusing system to direct the focused beam to strike the sample at a preselected strike point.

Abstract: Eyeglasses are provided that can function both as make-up glasses and reading glasses. The invention provides an eyeglass frame having a left and right lens support. A nose bridge separates the lens supports. A first lens seats in the left lens support. A second lens seats in the right lens support. Each lens is attached to the lens frame for movement from the left side to the right side of the frame and vise versa to mate with the lens on the opposite side. A first lens and a second lens seat in the left and right lens support. In this position, the eyeglasses function as reading glasses. Since the lenses are movably mounted to the frame, the first lens located on the left side can be moved to sit on top of the second lens on the right side. As a result, there will be no lens on the left side and the eyeglasses can function as make-up glasses. Similarly the second lens located on the right side can be moved to the left side to sit on top of the first lens on the left side.

Abstract: A process for forming a preform for use in compression molding an optical lens is provided. A heated reservoir desirably a thermoplastic extruder is filled with a thermoplastic material. The heated reservoir has a fluid outlet which is located in close proximity to the concave mold. The thermoplastic material, for example, polycarbonate pellets is fluidized in the heated reservoir. A predetermined amount of a fluid thermoplastic material is dispensed from the reservoir outlet onto the outside the edge of a heated concave mold prior to the fluid solidifying so that the fluid makes point or line contact as it first contacts the concave molds. The fluid flows down the sloping wall of the concave mold into the concave mold and forms a blob of material having a greater thickness at the center of the concave mold than at the periphery of the mold. The thermoplastic blob is then allowed to cool below its melting temperature.

Abstract: A protein free glaze forming composition is provided which is storage stable at room temperature. The glaze forming composition includes water, a modified food starch, one or more antibacterial preservatives, a vegetable gum, an alginate and an edible food grade acid. The resulting composition is storage stable at room temperature. It is protein and milk free. It is also sugar free. In use, the surface glaze is sprayed on the bakery product either before or after baking to provide a high gloss shine. The surface glaze composition according to the invention is particularly useful on pies to provide a glaze that is crack resistant and on baked products with flaky crusts.

Abstract: The pan release coating is provided which includes water, mono and diclycerides, polysorbate, and an antimicrobial effective amount of acetic acid, citric acid and sodium benzoate. Desirably, the composition of the present invention is composed of water in an amount of 77% to 95% by weight, acetic acid in the amount of 0.3 to 1% by weight, citric acid in the amount of 0.02 to 1.0% by weight, sodium benzoate in an amount of 0.02 to 0.3% by weight, monoglycerides and diglycerides in the amount of 2 to 8% by weight and polysorbate in the amount of 2 to 7% by weight. Desirably, lecithin is also included. The resulting product has a pH of 4.5 or below, desirably between about 3.5 and 4.5, and most desirably a pH of 3.6 to 3.9. The product has a shelf life of 12 months or longer at room temperature, without refrigeration or a sealed container.

Abstract: Harmonic lasers are provided. A third harmonic laser includes a first high reflector and an output coupler forming a resonator cavity having an optical axis. The resonator cavity includes a laser medium for producing a fundamental beam. Desirably, the laser medium is Nd:YAG, Nd:YLF, Nd:YV04, although other laser mediums are also contemplated such as Ti:sapphire, Nd:YAB and the like. The laser medium can be pumped by any desired source for example laser, laser diode, laser diode bar, fiber coupled laser diode bar or lamp which are well known in the art. The laser medium can be either end pumped or side pumped which are also well known. The first high reflector is reflective of a fundamental beam. A second harmonic generator is located within the cavity formed between the first high reflector and the output coupler for generating a second harmonic beam from the fundamental beam. The output coupler is highly transmissive for second harmonic beam and partially transmissive for a fundamental beam.

Abstract: According to the invention, a high power diode pumped solid state laser is provided. The laser includes a first and second reflective surfaces which form an optical resonator cavity. A laser medium, particularly a Nd doped laser medium for example: a Nd:YAG, a Nd:YLF, or a Nd:YVO4 crystal is provided within the laser cavity. A fundamental frequency laser beam propagates from the front and back ends of the laser medium. The first reflective surface is highly reflective for fundamental beam. The second reflective surface is at least partially reflective for fundamental beam. The laser medium is end pumped by at least one diode pumping apparatus for example, a laser diode, or diode array, or fiber coupled laser diodes, whose wavelength matches at least one laser medium absorption band. The diode pumping apparatus is located adjacent either the front end or the back end of the laser medium, or both. The optical resonator cavity is configured to provide a laser beam diameter in the laser medium from about 0.

Abstract: A method for forming a thermoplastic preform into a lens by compression molding between a pair of molds is provided. In another aspect of the invention a set of novel preforms made from a thermoplastic material is provided. The preforms have different radii of curvature. Preferably each different curvature preform comes in different weights desirably two or three different weights. A series of mating concave and convex mold halves are provided for use with the preforms. According to the invention a limited number of concave mold halves are provided. A wide range of single vision and multifocal lenses can be supplied from three (3) to six (6) base curve concave molds halves having different radii of curvatures. According to the invention a first concave mold half with a radius of curvature of less than two (2) diopters is provided. Each successive concave mold half has a radius of curvature of from one (1) to three (3) diopters greater than the previous mold half in the series.

Abstract: According to the invention, a high power diode pumped solid state laser is provided. The laser includes a first and second reflective surfaces which form an optical resonator cavity. A laser medium, particularly a Nd doped laser medium for example: a Nd:YAG, a Nd:YLF, or a Nd:YVO4 crystal is provided within the laser cavity. A fundamental frequency laser beam propagates from the front and back ends of the laser medium. The first reflective surface is highly reflective for fundamental beam. The second reflective surface is at least partially reflective for fundamental beam. The laser medium is end pumped by at least one diode pumping apparatus for example, a laser diode, or diode array, or fiber coupled laser diodes, whose wavelength matches at least one laser medium absorption band. The diode pumping apparatus is located adjacent either the front end or the back end of the laser medium, or both. The optical resonator cavity is configured to provide a laser beam diameter in the laser medium from about 0.

Abstract: According to the invention, a variable power laser beam delivery apparatus is provided. The apparatus includes a generator for delivering a preselected wavelength beam preferably an ultraviolet (UV) beam along a beam path. A dichroic mirror, desirably two (2) or more preferably four (4) dichroic mirrors, for transmitting the preselected UV wavelength beam at P-polarization and for highly reflecting the preselected UV wavelength beam at S-polarization are located along the preselected wavelength beam path delivered from the laser beam generator. A beam polarization rotator is mounted along the beam path of the laser beam provided from the laser beam generator. The beam polarization rotator is located between the laser beam generator and the dichroic mirror along the laser beam path. A beam output is provided by directing the beam transmitted by the dichroic mirror or reflected by the dichroic mirror to a preselected location as the output of the device.

Abstract: According to the invention, a method and apparatus for generating an Nth harmonic frequency beam (N>2) is provided. A laser fundamental resonator cavity generates a preselected fundamental beam. The laser cavity comprises two fundamental beam reflective mirrors, which define the laser cavity, and a lasing medium. A 2nd or 3rd harmonic cavity is at least partially separate from and the fundamental cavity and at least partially overlaps the fundamental cavity. The harmonic cavity is formed between 2nd or 3rd harmonic beam reflective surfaces and contains a 2nd or 3rd harmonic generator, preferably a harmonic nonlinear crystal. The beam from the fundamental cavity is directed into the harmonic cavity to incident on the harmonic nonlinear crystal for converting at least a portion of the fundamental beam to a harmonic beam.

Abstract: A pulsed laser preferably a tunable laser having a narrow band width is provided which has a high conversion efficiency at a high repetition rate. The laser includes a diffraction grating located in the laser's optical cavity. The optical cavity is defined by a mirror and diffraction grating or two mirrors with a diffraction grating therebetween. A tunable laser material is located within the optical cavity between the mirror and the diffraction grating. Desirably the diffraction grating is movably mounted within the optical cavity so that a beam of a presected wave length diffracted by the grating can be directed across the laser material. Optionally where two mirrors define the optical cavity, one of the mirrors or the grating or both can be movably mounted within the optical cavity. Preferable the movable grating and the movable mirror are rotatably mounted.

Abstract: A fourth harmonic frequency generating method and apparatus is provided. The system includes within the optical cavity an active laser medium, a second harmonic generator for generating second harmonic frequency of the fundamental frequency emitted by the laser. The fundamental beam is directed to a second harmonic generation crystal where a portion of the fundamental beam is converted to a second harmonic beam. Both the second harmonic and unconverted fundamental beams are directed back across the second harmonic generator by reflective surfaces for a second pass prior to any conversion of second harmonic beam to a higher harmonic beam. Preferably the second harmonic and fundamental beams are reflected by one of the laser cavity reflective surfaces for the second pass. Optionally, there can be separate reflective surfaces to reflect each of the fundamental and second harmonic beams.

Abstract: This invention is directed to methods, procedures and apparatus for controlling the portioning of flowable materials, particularly soft serve frozen confections, though also including other flowable products. Such other products may include soups, beverages such as milk shakes, soft drinks, and alcoholic beverages such as beers, and so forth. Typically a method for controlling the delivery of a portion of a flowable substance includes the steps of: i) Delivering the flowable substance in a stream; and ii) Noting the time for the delivery of a portion of a targeted amount; and iii) Determining the weight of the portion, and iv) Using this information to influence the delivery of further substance to meet a pre-determined target value. A preferred method is characterized by both the weight of the flowable substance being delivered and the time for the delivery of same being repeatedly or continuously assessed to achieve delivery of a pre-determined target weight or volume.

Abstract: A compression process for fabricating a substantially finished coated/layered lens for eyeglasses with a thermoplastic lens preform, with the lens having surfaces for correcting vision. The process comprised suitably placing on at least one of a pair of molds with molding surfaces conforming to the surfaces of the finished lens a thermoplastic film-layer/coating or multiple layers or coatings, each having a given thickness and predetermined characteristics and/or properties desired in the finished lens. The lens preform is then placed on the thermoplastic film-layer/coating; and heating and molding in situ of the film-layer/coating with the lens preform is then conducted while the lens preform is under compressive forces of the compression process until a generally predetermined lens thickness is achieved.

Abstract: According to the invention, a method and an apparatus for producing a laser beam having a preselected output frequency which has a longer wavelength than does the fundamental beam of the lasing medium is provided. In one aspect of the invention a laser resonator cavity is formed between two reflective surfaces such as mirrors. A lasing medium is located within the laser resonator cavity for generating a fundamental wavelength beam. An optical parametric oscillator cavity is also formed between one of the laser resonator cavity reflective surfaces and a third reflective surface for example a mirror. A nonlinear crystal cut for phase matching conditions for the fundamental beam wavelength and the output beam wavelength is located in optical communication with the first and the third reflective surfaces. The optical axis of the laser resonator and the optical parametric oscillator are at least partially separate and partially overlap.