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JMAR Unveils High Efficiency EUV Generation System for Advanced Semiconductor Lithography

Source: JMAR Technologies Inc.

- Based on JMAR s Proven Advanced Britelight™ Lasers Developed for X-ray Lithography - System Could Provide Basis for a Higher Performance, More Compact, Lower Power Consumption EUV Lithography Generator - Company Currently Exploring Alliance Opportunities With U.S., European and Japanese Partners

San Diego, CA. JMAR Technologies Inc. (Nasdaq:JMAR), a provider of precision micro- and nanotechnology products, today announced demonstrations of a proprietary high efficiency, laser-driven extreme ultraviolet (EUV) light generator by JMAR Research Inc., the company s San Diego research and development arm.

Those demonstrations, which are separate from and unrelated to those being conducted on JMAR s existing X-ray lithography light source, could provide the company with the basis for entirely new, high-performance, next-generation EUV lithography (NGL) systems capable of fabricating future ultra-high performance semiconductor chips, including microprocessors tens of times faster than today s most powerful semiconductors and memory chips with orders of magnitude greater storage capacity.

Lithography is the fundamental process in producing semiconductor integrated circuits. It is a light-based projection printing method which transfers microscopic circuit design features onto semiconductor wafers that are then processed to convert those designs into precise microelectronic circuits.

The lithography process determines the size and patterns of the microcircuits to be imprinted on the semiconductor chips. In general, the finer the circuit features, the shorter the distance the electrons must travel. Hence, the faster the chip operates. As current lithography technology reaches its limits, the semiconductor industry has been working ever-harder to stretch the capabilities of existing technology to create NGL systems capable of producing continued reductions in circuit size and improvements in performance in the most economical way possible.

Originally called "soft X-rays" as a way to distinguish its 13.5 nanometer wavelength from an alternative "regular" X-ray lithography technique based on 1 nanometer X-ray light, EUV radiation has become a leading developmental candidate for powering NGL systems.

For more than a decade, JMAR has led a pioneering effort to develop short wavelength light sources for advanced semiconductor lithography. The foundation for that program is JMAR s patented, all-solid state, high average-power Britelight(TM) laser technology which, when focused into JMAR s proprietary wavelength conversion system, transforms 9 percent of the laser s energy into the X-ray light needed for regular X-ray lithography (XRL). More than $35 million has been invested, to date, in JMAR s XRL program, which is targeted at installing an integrated stepper/source system at a gallium arsenide semiconductor processing facility in 2002.

At the same time, however, when coupled with well-established wavelength conversion technologies, JMAR s Britelight(TM) laser systems can also readily produce a variety of other types of light spanning the spectral range from its fundamental laser light wavelength of 1.06 microns to the much shorter (hence, higher energy) EUV and XRL wavelengths. John S. Martinez, Ph.D., JMAR s Chairman and CEO noted, "We refer to the broad band of light wavelengths uniquely generated by our Britelight(TM) technology as the JMAR Spectrum. That spectrum provides the basis for a wide range of potentially important new products, one of which is an EUV source for advanced semiconductor manufacturing applications."

In the early 1990 s, JMAR demonstrated its first EUV generation system based on the company s lower-efficiency excimer laser technology and participated in a program funded by Sandia National Laboratories to characterize and study the EUV output of that system. Subsequently, JMAR curtailed further development on its excimer laser in favor of its much smaller, more efficient, and more reliable diode-pumped solid-state Britelight(TM) lasers, which it then optimized to produce X-rays.

In late 2000, Harry Rieger, Ph.D., the creator of JMAR s world-leading Britelight™ laser technology and Edmond Turcu, Ph.D., JMAR s chief scientist and an internationally-recognized authority in the field of laser plasma X-ray production, initiated a company-funded program to determine the level of EUV generation obtainable by connecting an existing single laser module to a proprietary EUV conversion device developed in collaboration with a leading university research program. In a very short period of time, with relatively modest effort and expense, this laboratory system demonstrated an ability to convert more than 2 percent of its unoptimized laser energy into the portion of the EUV energy spectrum suitable for EUV lithography (EUVL).

The mainstream EUVL technology now being developed by an Intel-led U.S. EUVL consortium, contains extremely delicate critical optical components that could rapidly degrade in the presence of contaminants such as those which might be produced by plasma EUV generation sources.

Commenting on JMAR s recent EUV achievements, Dr. Turcu said, "We regard the results of our recent demonstrations as an important breakthrough in EUV generation technology performance. The EUV demonstrations at JMAR suggest that the general configuration of our system has excellent potential to meet the minimal debris generation requirement necessary for our technology to be considered as the basis for a competitive EUV lithography (EUVL) system.

"We have initiated the design of a full-power EUV generator based on the direct scaleup of the system we have already demonstrated," Dr. Turcu added. "This design includes certain obvious modifications of our Britelight(TM) lasers to optimize their ability to produce the higher laser power and better EUV conversion efficiencies to produce the 100 to 150 watts of EUV power required for the high throughput wafer processing that we believe is attainable with our technology.

"Contingent on the availability of adequate financing," Dr. Turcu continued, "JMAR looks to have a prototype 100-watt EUVL source available before the end of calendar 2002, to be followed by a scaleup of the system to 150 watts six-to-nine months later."

Dr. Martinez said, "At an EUV Lithography Workshop in March 2001, attended by leading professionals in the field, Dr. Turcu, in response to institutional requests, disclosed a limited amount of information regarding JMAR s technical progress and goals for its EUV program. We expect to issue further announcements regarding our progress within the near future, as appropriate.

"I wish to reiterate that our Britelight™ laser technology, which is fully-patented was developed at JMAR over a period of several years," Dr. Martinez noted. "Many leading laser and optical experts who have evaluated this technology have confirmed it to be the world s leading technology in its field. In Britelight(TM), we have achieved a high level of average laser power with almost perfect beam quality that enables extremely tight focusing of the laser beam with a simplicity that conceals the might of the underlying optical architecture. Although Britelight™ lasers can be used for less demanding and lower-value tasks, they were originally developed and optimized for very high-value energy conversion applications such as laser plasma EUV and X-ray lithography sources.

"It appears that, in many ways, efficient EUV generation from our modified Britelight™ (E) system places less demanding requirements on our laser architecture than those already met in the successful development of our Britelight™ (X) laser. Therefore, we are quite optimistic that, if the additional resources are available to do so, we should be able to move rapidly to demonstrate an efficient, cost-effective, full-power EUV source within a relatively short time.

"On the strength of our continued progress in refining our EUV and Britelight™ laser technologies, JMAR is currently conducting a series of discussions with U.S., European and Japanese companies and institutions to further explore and evaluate the feasibility and viability of potential alliance relationships for exploiting the full potential of our EUVL source technology."

JMAR Technologies Inc., a semiconductor industry-focused company, is a leading developer of proprietary advanced laser, X-ray and EUV light sources for high-value microelectronics manufacturing and metrology. In addition, JMAR manufactures precision measurement, positioning and light-based manufacturing systems for inspection and repair of semiconductors and continues to play an important role in adapting its precision semiconductor manufacturing technology to the fabrication of advanced biomedical and optical communications products. It is also a fabless provider of high performance integrated circuits for the rapidly growing broadband communications market and other microelectronics applications.

The statements herein regarding JMAR s expectations for the successful development and introduction of new products and future sales and potential business opportunities are forward-looking statements based on current expectations that are subject to risks and uncertainties that could cause actual results to differ materially from those set forth in the forward-looking statements. These risks include the failure of advanced technology and new intellectual property to perform as predicted or to be fully developed and engineered in a commercial product that is accepted by the marketplace, the failure of pending patents to be issued, competition from alternative technologies, the failure of future orders to materialize as expected, delays in shipment or production, parts and labor shortages, cancellation or re-scheduling of orders, delay in funding of third-party contracts, and the other risks detailed in the company s 2000 Form 10-K and other reports filed with the SEC.

Contact: JMAR Technologies Inc., San Diego Dennis E. Valentine Tel: 760/602-3292 http://www.jmar.com

JMAR Technologies Inc., San Diego
Dennis E. Valentine
Tel: 760/602-3292
http://www.jmar.com
Web site: http://www.jmar.com
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