JMAR Licenses Soft X-Ray Laser from NSF Center for Extreme Ultraviolet Science and Technology for New Analytical Instrument and Nano-Probe Products; Laser Produces High-Intensity Bursts at Shortest Wavelength.SAN DIEGO -- JMAR JMAR Joint Medical Asset Repository Technologies, Inc. (NASDAQ NASDAQ in full National Association of Securities Dealers Automated Quotations U.S. market for over-the-counter securities. Established in 1971 by the National Association of Securities Dealers (NASD), NASDAQ is an automated quotation system that reports on :JMAR), a leading developer of advanced laser technology, has finalized a licensing agreement with Colorado State University Colorado State University, at Fort Collins; land-grant with state and federal support; chartered 1870, opened 1879 as an agricultural college, assumed present name in 1957. There is a veterinary teaching hospital, an agricultural campus, and a research campus. Research Foundation (CSURF) as agent for Colorado State University (CSU See DSU/CSU. 1. CSU - California State University. 2. CSU - Cleveland State University. 3. CSU - Channel Service Unit. ) for the use of its discharge pumped soft X-ray laser, developed under the auspices of the National Science Foundation's (NSF NSF - National Science Foundation ) Engineering Research Center for Extreme Ultraviolet Science and Technology (EUV EUV Extreme Ultraviolet EUV Exclusive Use Vehicle EUV Extreme Ultra Violet ERC). The laser produces high-intensity soft X-ray radiation at a wavelength shorter than any other laser on the market today and complements JMAR's Laser Produced Plasma (LPP) X-ray source that produces shorter wavelengths still. "The CSU soft X-ray laser enhances JMAR's ability to create an entirely new class of analytical instruments and nanostructure characterization tools," said Ronald A. Walrod, Company CEO (1) (Chief Executive Officer) The highest individual in command of an organization. Typically the president of the company, the CEO reports to the Chairman of the Board. . "Characterized by a combination of high-spatial resolution (50 nm) and ultra-high detection-sensitivity, JMAR's instruments and tools using CSU soft X-ray laser technology will enhance nanotechnology, life science and materials research. Representative applications include geolocation for nuclear forensics, assessment of microbial mineralization Mineralization The process by which the body uses minerals to build bone structure. Mentioned in: Rickets mineralization, n the bioprecipitation of an inorganic substance. , molecular uptake imaging for cancer therapy, cellular uptake of carcinogens, cosmochemistry cos·mo·chem·is·try n. The science of the chemical composition of the universe. cos  mo·chem analysis, and defect-analysis and repairs for the semiconductor industry." Carmen Menoni, Professor of Electrical Engineering at CSU and the lead principal investigator in the project, added: "This collaboration with JMAR started about 6 months ago. As an affiliate member of the NSF EUV ERC, JMAR became aware of the soft X-ray laser source and its potential applications through recent results obtained by our group in high-resolution imaging experiments. JMAR approached CSU to license our soft X-ray laser technology as the light source for a very high-resolution analytical chemistry tool. This alliance presents an opportunity for us to realize an important part of the EUV ERC mission; to collaborate with industry to commercialize center technology. We are especially pleased to transfer this technology to a supportive ERC associate member such as JMAR." About the NSF Center for Extreme Ultraviolet Science and Technology The National Science Foundation Extreme Ultraviolet Science and Technology Center is a collaboration between Colorado State University, the University of Colorado-Boulder, the University of California- Berkeley and the Center of X-Ray Optics at Lawrence Berkeley Laboratory. The EUV ERC develops compact EUV lasers and laser-like coherent sources and uses these sources in novel and challenging applications, such as high resolution imaging, spectroscopy, and nano-fabrication. About JMAR JMAR Technologies, Inc. is a leading innovator in the development of laser-based equipment for imaging, analysis and fabrication at the nano-scale. The Company is leveraging more than a decade of laser and photonics research to develop a diverse portfolio of products with commercial applications in rapidly growing industries while continuing to carry out research and development for the U.S. Defense Advanced Research Projects Agency Defense Advanced Research Projects Agency (DARPA), U.S. government agency administered by the Department of Defense (see Defense, United States Department of). (DARPA DARPA: see Defense Advanced Research Projects Agency. (Defense Advanced Research Projects Agency) The name given to the U.S. Advanced Research Projects Agency during the 1980s. It was later renamed back to ARPA. ) and support for the U.S. Government's Defense Microelectronics Activity (DMEA DMEA Delta-Montrose Electric Association (Colorado) DMEA dimethylethylamine DMEA Defense Minerals Exploration Administration DMEA Department of Mineral and Energy Affairs (South Africa) ) semiconductor fabrication facility. JMAR is targeting the nanotechnology, bioscience and semiconductor industries with its BriteLight(TM) Laser; X-ray Light Source; Compact X-ray Microscope -- for 3D visualization of single cells and polymers; and X-ray Nano Probe -- enabling interaction, analysis and materials modification at the nano-scale. JMAR also develops, manufactures and markets its BioSentry(TM) microorganism microorganism /mi·cro·or·gan·ism/ (-or´gah-nizm) a microscopic organism; those of medical interest include bacteria, fungi, and protozoa. early-warning system and maintains a strategic alliance for the production of the READ chemical sensor for the homeland security, environmental and utility infrastructure industries. This news release contains certain "forward-looking statements." Forward-looking statements are based on current expectations and assumptions and are inherently subject to risks and uncertainties, some of which cannot be predicted or quantified, and many of which are beyond the Company's control. Actual results could differ materially from these forward-looking statements as a result of a number of factors, including delays in the completion of the X-ray Microscope and X-ray Nano Probe prototypes and transition to production units, the failure of the technology to perform as predicted, competition from alternative technologies, uncertainties as to the size of the markets , cost and margins for JMAR's products, failure to obtain market acceptance, current or future government regulations affecting the use of JMAR's products, the lack of availability of critical components, the degree of protection from future patents, other risks associated with the development or acquisition of new products or technologies and those risks detailed in the Company's Form 10-Q for the quarter ended September 30, 2005 and its Form 8-K filed on March 30, 2005 with the SEC. Given these risks and uncertainties, investors are cautioned not to place undue reliance on such forward-looking statements and no assurances can be given that such statements will be achieved. JMAR Technologies, Inc. does not assume any duty to publicly update or revise the material contained herein. |
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