Professor
Bioengineering
UC San Diego health
United States Virgin Islands
George R. Tynan received his Ph.D. in 1991 from the Department of Mechanical, Aerospace, and Nuclear Engineering at the University of California, Los Angeles. He then spend several years studying the effect of sheared flows on plasma turbulence on experiments located in the Federal Republic of Germany and at Princeton Plasma Physics Laboratory. He then returned to UCLA where he helped develop a concept for a new fusion experiment currently under construction. He joined the MAE faculty in July 1999 after spending several years investigating the application of low-temperature plasmas to the creation of nano-meter scale semiconductor circuits. Professor Tynan's current research is focused on the plasma physics of controlled nuclear fusion as an energy source. He studies the fundamental physics of turbulent transport in hot confined plasmas using both smaller scaled laboratory plasma devices as well as large scale fusion experiments located around the world. In addition, he is investigating how solid material surfaces interact with the boundary region of fusion plasmas, and how the materials are modified by that interaction. He is also interested in the larger issue of transitioning to a sustainable energy economy based upon a mixture of efficient end use technologies, large scale deployment of renewable energy sources, and incorporation of a new generation of nuclear technologies such as advanced fission and fusion reactor systems. He is preparing a textbook on these topics to introduce science and engineering students to this critical issue.George R. Tynan received his Ph.D. in 1991 from the Department of Mechanical, Aerospace, and Nuclear Engineering at the University of California, Los Angeles. He then spend several years studying the effect of sheared flows on plasma turbulence on experiments located in the Federal Republic of Germany and at Princeton Plasma Physics Laboratory. He then returned to UCLA where he helped develop a concept for a new fusion experiment currently under construction. He joined the MAE faculty in July 1999 after spending several years investigating the application of low-temperature plasmas to the creation of nano-meter scale semiconductor circuits. Professor Tynan's current research is focused on the plasma physics of controlled nuclear fusion as an energy source. He studies the fundamental physics of turbulent transport in hot confined plasmas using both smaller scaled laboratory plasma devices as well as large scale fusion experiments located around the world. In addition, he is investigating how solid material surfaces interact with the boundary region of fusion plasmas, and how the materials are modified by that interaction. He is also interested in the larger issue of transitioning to a sustainable energy economy based upon a mixture of efficient end use technologies, large scale deployment of renewable energy sources, and incorporation of a new generation of nuclear technologies such as advanced fission and fusion reactor systems. He is preparing a textbook on these topics to introduce science and engineering students to this critical issue.
electrochemical energy storage, control of thermal energy, and fluid flow at the nanoscale