Abstract: The invention relates to a method of processing non-refrigerated lead selenide infrared detectors, consisting in: 1) selecting the substrate and preparing same; 2) delineating and depositing multilayer interference filters; and 3) treating polycrystalline lead selenide infrared detectors on the interference filters, comprising the following steps, namely 3a) metal deposition, 3b) delineation of the metal deposit, 3c) delineation of the sensor, 3d) PbSe deposition by means of thermal evaporation, 3f) processing of sensor, 3g) thermal treatment in order to sensitise the active material, and 3h) deposition of a passivator layer on the active material. The inventive method is unique in that it can be used to treat differently-shaped non-refrigerated infrared detectors on the same substrate, including discrete elements, multielements, linear matrices, two-dimensional matrices, etc., with the responses of each being modified by design by the corresponding interference filter.

Abstract: Method to process polycrystalline lead selenide infrared detectors consisting in: 1) Substrate preparation; 2) Metal deposition; 3) Metal delineation; 4) Sensor delineation; 5) PbSe deposition by thermal evaporation in vacuum; 6) Specific thermal treatment for sensitizing the active material; 7) Deposition of a pasivating layer on the active material. The method is superior to other techniques because permits to process single element detectors, multielement detectors with different geometries such as: linear arrays, 2-dimensional arrays, detectors on interference filters, multicolor arrays and devices monolithically integrated with a ROIC. Applications include low cost infrared detectors for process control, gas analysis, defense, temperature measurement etc.

Abstract: A process for manufacturing a paper stock for use in making paper, paperboard and similar cellulosic products, by adding, at one or more different points of the wet end of the paper-making machine, a secondary retention and drainage agent containing a liquid smectite, and a primary retention and drainage agent comprising a natural or synthetic polymer. The retention and drainage agents can be added in any order, thus improving the retention, drainage, formation and drying, without affecting the whiteness, and enhancing the physical values of the paper, paperboard, cardboard and other similar products. The smectite can be an enhanced, concentrated, liquid smectite that can avoid the need for an on-site preparation unit.

Abstract: The invention features methods and compositions for preventing or treating post-surgical pain by administering an anti-NGF antagonist antibody.

Abstract: A process for manufacturing a paper stock for use in making paper, paperboard and similar cellulosic products, by adding, at one or more different points of the wet end of the paper-making machine, a secondary retention and drainage agent containing a liquid smectite, and a primary retention and drainage agent comprising a natural or synthetic polymer. The retention and drainage agents can be added in any order, thus improving the retention, drainage, formation and drying, without affecting the whiteness, and enhancing the physical values of the paper, paperboard, cardboard and other similar products. The smectite can be an enhanced, concentrated, liquid smectite that can avoid the need for an on-site preparation unit.

Abstract: A process for manufacturing a paper stock for use in making paper, paperboard and similar cellulosic products, by adding, at one or more different points of the wet end of the paper-making machine, a secondary retention and drainage agent containing a liquid smectite, and a primary retention and drainage agent comprising a natural or synthetic polymer. The retention and drainage agents can be added in any order, thus improving the retention, drainage, formation and drying, without affecting the whiteness, and enhancing the physical values of the paper, paperboard, cardboard and other similar products. The smectite can be an enhanced, concentrated, liquid smectite that can avoid the need for an on-site preparation unit.

Abstract: A cathode has electropositive atoms directly bonded to a carbon-containing substrate. Preferably, the substrate comprises diamond or diamond-like (sp.sup.3) carbon, and the electropositive atoms are Cs. The cathode displays superior efficiency and durability. In one embodiment, the cathode has a negative electron affinity (NEA). The cathode can be used for field emission, thermionic emission, or photoemission. Upon exposure to air or oxygen, the cathode performance can be restored by annealing or other methods. Applications include detectors, electron multipliers, sensors, imaging systems, and displays, particularly flat panel displays.