Cangemi
Laurent Cangemi, Bougival FR
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20110162842 | METHOD OF TREATING THE AREA SURROUNDING ACID GAS STORAGE WELLS - Method of treating the area surrounding an acid gas storage well ( | 07-07-2011 |
Michael J. Cangemi, Victor, NY US
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20090141358 | DENSE HOMOGENEOUS FLUORIDE FILMS FOR DUV ELEMENTS AND METHOD OF PREPARING SAME - The invention is directed to optical elements that are coated with dense homogeneous fluoride films and to a method of making such coated elements. The coatings materials are a high (“H”) refractive index fluoride material and a low (“L”) refractive index material that are co-evaporated to form a coating layer of a L-H coating material (a co-deposited coating of L and H materials). Lanthanide metal fluorides (for example, neodymium, lanthanum, dysprosium, yttrium and gadolinium, and combinations thereof) are preferred metal fluorides for use as the high refractive index materials with lanthanum fluoride (LaF | 06-04-2009 |
20090297812 | Adhesive, hermetic oxide films for metal fluoride optics and method of making same - The invention is directed to single crystal alkaline earth metal fluoride optical elements having an adhesive, hermetic coating thereon, the coating being chemically bonded to the surface of the metal fluoride optical element with a bonding energy ≧4 eV and not merely bonded by van de Walls forces. The materials that can be used for coating the optical elements are selected from the group consisting of SiO | 12-03-2009 |
Michael Jerome Cangemi, Canandaigua, NY US
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20130321922 | SILICA-MODIFIED-FLUORIDE BROAD ANGLE ANTI-REFLECTION COATINGS - The disclosure is directed to a coating consisting of a binary metal fluoride coating consisting a high refractive index metal fluoride layer on top of a substrate, a low refractive index metal fluoride layer on top of the high refractive index layer and layer of SiO | 12-05-2013 |
20150070906 | UV PROTECTIVE COATING FOR LENS ASSEMBLIES - A lens assembly including a lens; a light absorber that does not transmit light with wavelengths from greater than or equal to about 250 nm to less than or equal to about 400 nm; a lens holder; and an adhesive configure to adhere the lens to the lens holder. The light absorber is positioned such that light having a wavelength from greater than or equal to about 190 nm to less than or equal to about 500 nm is not incident to the adhesive. A method including applying a light absorber, which does not transmit light with wavelengths from greater than or equal to about 190 nm to less than or equal to about 500 nm, to a lens; and configuring the light absorber and the adhesive so that the absorbed light is not incident to the adhesive. | 03-12-2015 |
Micheal J. Cangemi, Victor, NY US
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20090035586 | CLEANING METHOD FOR DUV OPTICAL ELEMENTS TO EXTEND THEIR LIFETIME - The invention is directed to a method for cleaning surfaces of optical elements made from metal fluoride single crystals of formula MF | 02-05-2009 |
Raoul Cangemi, Firenze IT
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20160143093 | ILLUMINATING MICROWAVE HEATER, WITH ENERGY RECOVERY - Illuminating microwave heater, comprising at least o le magnetron radiating microwaves in a first chamber, impermeable, reflecting and shielding the microwaves; said first chamber being filled with ionized gas and comprising internally at least a second chamber, permeable to microwaves, adapted to contain liquid to feed into the radiators and heat absorbing tubes; said liquid being heated by friction, when radiated by the microwaves; said illuminating microwave heater comprising pipes connected to said at least one second chamber by means of devices adapted to prevent the microwaves from escaping from the first chamber; said ionized gas in plasma state when excited by the microwaves being adapted to generate light illuminating said first chamber at least internally. | 05-19-2016 |