Ian Wagner, a doctoral candidate of mechanical and aerospace engineering at 哔哩传媒 (UAH), has been selected to receive the ) award. The honor resulted from Wagner鈥檚 proposed research project to study plasma-jet driven magneto-inertial fusion, to be conducted at Los Alamos National Laboratory (LANL). The project seeks to advance plasma-jet magneto inertial fusion, or PJMIF, a key component to achieving breakeven fusion, which could one day lead to abundant clean energy.
PJMIF is one of several possible types of magneto-inertial fusion, where a magnetized plasma target is imploded by a material shell, called a liner. Magneto-inertial fusion (MIF) describes a class of fusion devices that use magnetic fields to confine an initial warm, low-density plasma, that it then compresses to fusion conditions. Unlike solar and wind power, the energy produced by nuclear fusion is virtually limitless, and 鈥 rather than electricity generated by fission reactors, coal, oil or natural gas 鈥 requires no fossil fuels and leaves behind zero hazardous waste.
Wagner is advised by Dr. Gabe Xu, an associate professor of mechanical and aerospace engineering at UAH, a part of The University of Alabama System.
鈥淎s an undergraduate student, I studied aerospace engineering. I became fascinated with advanced concepts of deep space propulsion, including nuclear fusion propulsion,鈥 Wagner explains. 鈥淐urrently at UAH I study laser-induced plasmas expanding within magnetic fields. Los Alamos National Laboratory is working to broaden the knowledge in magneto-inertial fusion. This research will help me in my research into laser-induced plasma interactions within magnetic fields.鈥
Getting to work with scientists at Los Alamos represents a golden opportunity for the graduate, not only to benefit from his experiences there, but also to help bring the science that much closer to realizing this long-held dream, while strengthening the bonds between UAH and the LANL.
鈥淚 hope to further the connections between UAH and LANL and support LANL鈥檚 research on the Plasma Liner Experiment (PLX) while learning new plasma diagnostic techniques,鈥 Wagner says. 鈥淭he main scope of my project will be to understand the plasma and magnetic field properties within PLX as well as how multiple plasma jets from the plasma guns on PLX interact and how their magnetic fields merge. This is important to understand how well the plasma is confined, as well as the burning time of the plasma within PLX, so that a better understanding of the physics involved in magneto-inertial fusion is achieved.鈥
As part of the eligibility requirements, SCGSR awardees must be enrolled full-time in a qualified doctoral program during each academic term throughout the award period. To help kick off the project, Wagner recently attended the SCGSR Program's orientation webinar for new awardees.
鈥淭he selection of Ian Wagner for the SCGSR award is in recognition of outstanding academic accomplishments and the merit of the SCGSR research proposal, and reflects his potential to advance his Ph.D. studies and make important contributions to the mission of the DOE Office of Science,鈥 writes Dr. Igor I. Slowing, the SCGSR program manager, in Wagner鈥檚 acceptance letter.
In looking to the future of this research, the ultimate goal could not be clearer.
鈥淚 support Dr. Xu鈥檚 work in helping to understand the physics of fusion so that an abundant clean energy source can be obtained for humanity in the future,鈥 Wagner says.
