Her other experiments have broadened the reach of the field of
plasma physics into regions deep in planetary interiors and aspects of extreme states of solid - state material dynamics.
Not exact matches
Ten stories in 2017 you may have missed, plus a bonus New insights
into the science of fusion energy and the
physics of
plasma from researchers at PPPL.
Deep in a laboratory tucked away in the basement of the U.S. Department of Energy's (DOE) Princeton
Plasma Physics Laboratory (PPPL), intern Mark Thom punched commands
into a computer as two other students checked a chamber where a silver robotic arm extended from a small port.
By combining multiple beams
into one, LLNL's
plasma beam combiner can break through that limit and push these experiments
into new
physics regimes.
Now, physicists at the U.S. Department of Energy's Princeton
Plasma Physics Laboratory (PPPL) appear to have gained important new insights into what affects this turbulence, which can impact the leakage of heat from the fusion plasma within tok
Plasma Physics Laboratory (PPPL) appear to have gained important new insights
into what affects this turbulence, which can impact the leakage of heat from the fusion
plasma within tok
plasma within tokamaks.
Some students come
into the high school internship program at PPPL already harboring an interest in
plasma physics, knowing exactly what research they want to work on and what they want to learn.
The paper by Goldston, a top scientist at the U.S. Department of Energy's Princeton
Plasma Physics Laboratory (PPPL) and former director of the Laboratory, showed that the width of the scrape - off layer depends on how rapidly plasma moves across the magnetic field — due to well - understood classical «drifts» — as it flows into the divertor ch
Plasma Physics Laboratory (PPPL) and former director of the Laboratory, showed that the width of the scrape - off layer depends on how rapidly
plasma moves across the magnetic field — due to well - understood classical «drifts» — as it flows into the divertor ch
plasma moves across the magnetic field — due to well - understood classical «drifts» — as it flows
into the divertor chamber.