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Applied Energetics
Laser Focus
Applied Energetics Finds Prosperous New Home at UA Tech Park
Applied Energetics has settled into its new digs at University of Arizona Tech Park at Rita Road.
And it’s a perfect fit for the leader in developing laser technology with faststrike capabilities.
“It’s been fantastic,” said Applied Energetics CEO Gregory Quarles. “It’s very collaborative. There’s open space out here, a space to walk, a workout area, a Starbucks and an easy drive out from the airport. It’s a really good mixture of the things we want to have.”
“It was really about right time, right place,” he continued. “It fit every need that we have.”
Those needs involved tripling its space to 13,000 square feet, including the addition of a 4,800-square-foot clean room and dust-free environment to “do some really great experiments,” Quarles said. The company is benefiting from millions of dollars of capital investment made by the previous occupant, a global provider of lasers and laser-based technology.
Quarles said the new headquarters will allow the company to reach new heights in the field of Ultra-Short Pulse lasers. It also will “align with the company’s defense industry and production roadmap,” he added.
“We worked with Applied Energetics to relocate their corporate headquarters to the UA Tech Park, where they join over 70 other technology companies within this dynamic and collaborative community,” said Carol Stewart, associate VP of Tech Parks Arizona. “Applied Energetics has strong ties to University of Arizona research, and this strategic location adds to their ability to fasttrack the development and commercialization of their technologies in the field of ultra-short pulse lasers.”
Brad Adamczyk, board chairman of Applied Energetics, said the company’s move to the prestigious location proves it will continue to be a driving force in its industry. “Our company growth is best exhibited by our move to the UA Tech Park, one of the nation’s premier research facilities, which enabled us to leapfrog our technology development roadmap by gaining over 4,800 square feet of state-of-the-art cleanroom space,” Adamczyk said. “This will not only allow us to further advance our pursuit of co-development opportunities and build proprietary end-market applications for our USP laser technology, but also attract and retain the best and brightest talent.”
“There is such a breadth of technology that is growing up in this area,” Quarles said. “There’s a lot of really wonderful things we can do.”
Laser research often uses continuous beams of light, but Applied Energetics is using short-pulse laser technology that emits a beam for a billionth of a second. That light could be used for defense purposes to eliminate a target or targets, Quarles said.
“This part of the laser market has not been explored or populated very readily,” he explained.“It has been a forefront in the scientific community, but it hasn’t been explored in the defense sector. If we can demonstrate that, we could do that maybe a thousand times a second. In that same time period, we can access hundreds of times more targets.”
Applied Energetics’ strength and knowledge in the industry stand out.
“What attracted me and other shareholders most was Applied Energetics’ vast intellectual property portfolio in Ultra-Short Pulse technology, much
By Valerie Vinyard
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Gregory Quarles
CEO Applied Energetics
continued from page 176 of which was developed over 15 years ago,” Adamczyk said. “This, as well as the company’s leadership from CEO Dr. Gregory Quarles and Dr. Steve McCahon, one of the world’s most renowned USP scientists, is a winning combination that will transform the defense space to counter threats through less-than-lethal means while also impacting the biomedical and manufacturing industries.”
Biz
Applied Energetics CEO Lured to Lasers’ Potential
The lure of science started early for Applied Energetics CEO Gregory Quarles, 60. “It all just started with a natural curiosity as a kid,” he said. “All the questions about nature around me led me to the path of science.” The Oklahoma State University physics and math major became interested in lasers while working in a laser lab in college. “Being very visual myself, it was something I threw myself into,” said Quarles, who holds a few patents. “A lot of my original early work was with pulsed lasers.” He said one of the most interesting things he did was work at the U.S. Naval Research Laboratory to protect pilots. Quarles also came up with a technique to remove plaque from an artery using pulses of light. Quarles has two sons, an emergency room trauma doctor in New York City and a culinary specialist in Seattle. He also was a professor at the University of Maryland Baltimore County and continues to mentor STEM individuals. Applied Energetics offers internships to UArizona graduate students who want to learn how to work in an industrial setting. Quarles said it’s important to have an open mind in research. “Look at your mission, but also what else you can do,” he said. “It just shows that with the right creative team around you, a lot of things can be done.”