Our solar system just became a little bit smaller due to a new plasma propulsion concept developed by the U.S. Department of Energy’s Principal Research Physicist, Dr. Fatima Ebrahimi. Her new engine uses plasmoids and magnetic fields to generate thrust, making crewed missions to distant planets, such as Mars, significantly more manageable and less costly.
BACKGROUND: The Problem with Traditional Propulsion
Getting objects into space requires a lot of energy. Traditional chemical rockets produce a lot of thrust but only for a short time. Electric ion-based systems can provide months of thrust, but they can only produce a small amount of thrust. It can take a very long time to build up speed.
Dr. Ebrahimi’s concept attempts to combine the best of both worlds.
ANALYSIS: Plasma Propulsion May Be The Answer
“My new plasmoid thruster is complementary to existing thruster technology,” Dr. Ebrahimi told The Debrief. “It is unique in being able to deliver high thrust at high and variable exhaust velocity (tens to hundreds of km/s). It should therefore get unsurpassed gas mileage for longer trips (Mars and beyond).”
Her concept is based upon the
magnetism present in solar flares. In simple terms, charged plasma is
emitted containing strong magnetic fields. The plasma converges, then
separates, then merges again. This back and forth transfer creates
thermal and kinetic energy and can give any object using this
theoretical propulsion system one helluva kick.
“The idea for this thruster comes
from my simulations of helicity injection in the [National Spherical
Torus Experiment] NSTX fusion experiment in Princeton, a technique used
to create the initial plasma current in a Tokamak [fusion reactor]. My
simulations showed these plasma rings called plasmoids are being created
and moving at very high speed,” Dr. Ebrahimi explained.
According to computer simulations run by the Princeton Plasma Physics Laboratory and the National Energy Research Scientific Computing Center at the Lawrence Berkeley National Laboratory in Berkeley, California, her thruster concept produced exhaust velocities that are ten times greater than a traditional ion propulsion system with heart-stopping speeds at hundreds of kilometers per second.
OUTLOOK: The Future of Plasma Propulsion
If used, Dr. Ebrahimi’s propulsion system could have astronauts reaching the outer planets of our solar system much more quickly.
Moreover, since the system relies on magnetic fields, the crew could adjust their speed by increasing or decreasing the magnetic field generated by the engine, thereby altering the plasma exhaust’s convergence/re-convergence cycle.
In theory, the initial acceleration at the starting leg of the trip would send the vehicle ripping through space. Then, to conserve energy, the crew could reduce thrust and let the frictionless vacuum of space do the work until they needed another boost.
“The vision is that it will help make it practical and economical to move payloads in space between orbits around Earth, Moon, and Mars and the asteroid belt,” Dr. Ebrahimi told The Debrief. Ultimately, the trip becomes faster, and you use less fuel—horsepower and gas mileage in space.
MJ BANIAS
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