Electrical Engineering and Computer Science


MIPSE Seminar

A Multi-Dimensional View of the U.S. Inertial Confinement Fusion Program

Dr. Gregory Rochau


Sandia National Laboratories
 
Wednesday, September 27, 2017
3:30pm - 4:30pm
1005 EECS

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About the Event

The U.S. Inertial Confinement Fusion (ICF) program is pursuing three major approaches with a goal of achieving multi-mega-Joule fusion yields in the laboratory: laser indirect drive, laser direct drive, and magnetic direct drive (MDD), each with unique physics and engineering challenges. There are, however, many commonalities in the plasma conditions and dynamics that occur near peak compression, the need for new diagnostic capability, and the need to control laser plasma instabilities (LPI). Greater cross-fertilization of expertise and ideas across the national program combined with advancements in experimental methods and new technologies is leading to new insights into the physical processes of each approach. Parallel efforts are underway to understand the length and temperature scaling of hydro-equivalent implosions and laser energy coupling from OMEGA to NIF, while LPI mitigation and control experiments are being performed on NIF, OMEGA, and Nike, all linked via a common LPI modeling platform. In MDD, experiments at NIF, OMEGA, and Z have demonstrated effective gas heating for the laser preheating phase of the Magnetized Liner Inertial Fusion (MagLIF). This talk re-views the status and future outlook of U.S. efforts in ICF through a comparison of the common challenges and key differences of the three major approaches and highlights of recent accomplishments and future plans.

Biography

Dr. Gregory Rochau is the manager of the Radiation and Fusion Experiments department and the head of the Secondary Assessment Technologies program at Sandia National Laboratories. Prior to this role, he managed x-ray imaging and spectroscopy diagnostic development and operations on Z, the world’s most powerful Pulsed Power facility. Dr. Rochau specializes in applied spectroscopy for the diagnosis of high energy density plasma conditions in z-pinch and inertial confinement fusion experiments; work through which he has authored or co-authored more than 80 papers. He has been the principal investigator for dozens of experiments on both the Z facility at Sandia and the Omega facility at the Laboratory for Laser Energetics.

Additional Information

Contact: Mark J. Kushner

Email: mipse-central@umich.edu

Sponsor(s): MIPSE

Open to: Public

Web Page: http://mipse.umich.edu/seminars_1718.php