Using a laser diode system on loan from the Air Force Research Laboratory, New Mexico State University associate professor Dr. Krishna Kota tests the seal integrity of the cooling flow loop located in the Surface-environment Interaction Research Laboratory (SIRE Lab) at NMSU. The flow loop will be used to test the ability of novel two-phase cooling approaches in handling the highly challenging, transient heat densities of directed energy weapon systems. Courtesy photo
KIRTLAND AFB — The Air Force Research Laboratory Directed Energy Directorate recently signed a 5-year Strategic Education Partnership Agreement (EPA) with New Mexico State University (NMSU) located in Las Cruces.
The EPA extends the loan of a laser diode system that NMSU will use in testing novel cooling solutions for directed energy laser and high-power microwave systems.
“Heat is one of the major bottlenecks for an efficient deployment of directed energy weapons, or DEWs, said Dr. Sean Ross, the Deputy High Energy Laser Technical Area lead. “Heat generated during the operation of a DEW impacts power consumption and the overall size and weight of the system. AFRL is hoping that NMSU’s research will result in new and improved solutions for cooling those systems.”
NMSU is ready to pick up their testing in DEW cooling solutions that was interrupted in 2020.
“Our researchers are excited to renew their research using AFRL’s laser diode system as a heat source, after two years of being in lockdown because of COVID restrictions,” NMSU associate professor Dr. Krishna Kota said. “The heat densities of DEWs are similar to those experienced at the exhaust of a rocket engine motor or in the close vicinity of a nuclear explosion. We have started to work again on a cooling flow loop that will be used to test the ability of a first-of-its-kind two-phase cooling approach in handling these highly challenging, transient heat densities. This cooling approach has already demonstrated record performance numbers in the preliminary experiments. If there are no unforeseen delays, we hope to complete the testing of the flow loop this year.”
Ross stated that almost all current research into cooling laser diodes use a resistive heater, like a home space heater, as a heat source for simulating heat from a DEW, though the heat load characteristics of an actual laser diode are very different from an electrical heater.
“AFRL’s EPA with NMSU allows Dr. Kota’s team to test their concepts on a real laser diode that turns on and off like an actual laser diode and not like a resistive heater,” Ross said.
There are several benefits to NMSU in this strategic EPA Kota explained.
“This EPA will allow our NMSU researchers to advance research in two-phase cooling for high heat flux applications,” Kota said. “In addition, it gives us access to state-of-the-art equipment, and research experience for graduate and undergraduate students, promoting the development of the STEM workforce in an area of national need. We look forward to providing AFRL with some useful results that will enhance their important work in directed energy for the nation’s security.”
AFRL also looks forward to the value the U.S. Air Force will receive from their partnership with NMSU.
“AFRL will benefit by seeing the thermal potential of two-phase cooling for laser diodes,” Ross said. “Much previous research into surface enhancement for boiling has used very expensive and time-consuming vacuum deposition processes. “NMSU’s research in developing cooling solutions is about enhancing the boiling process with a technology that is inexpensive and can be done on any shape surface, so it’s a big deal.”
The Air Force Research Laboratory (AFRL) is the primary scientific research and development center for the Department of the Air Force. AFRL plays an integral role in leading the discovery, development, and integration of affordable warfighting technologies for our air, space, and cyberspace force. With a workforce of more than 11,500 across nine technology areas and 40 other operations across the globe, AFRL provides a diverse portfolio of science and technology ranging from fundamental to advanced research and technology development. For more information, visit: www.afresearchlab.com
New Mexico State University (NMSU) is a comprehensive land-grant research university of higher learning. It is a NASA Space Grant College, a Hispanic-Serving Institution (HSI), and is home to the first Honors College in New Mexico. With annual research expenditures exceeding $110 million, the National Science Foundation ranks NMSU in the Top 20 universities for science and engineering funding among all HSIs in the nation. U.S. News and World Report ranks NMSU in the top tier among Best National Universities. It has also been named a top military friendly school and has received a gold designation on the Military Friendly Schools list, making it one of the top 10% institutions in the nation for military students. For more information, visit: www.nmsu.edu.