Female physicist invents new fusion rocket that could first take humans to Mars


Female physicists invent new fusion rockets that could transport humans to Mars 10 TIMES earlier than space-proven thrusters

  • A new fusion rocket concept could one day take humans to Mars
  • It uses magnetic fields to shoot plasma particles out of the rocket.
  • Current space-proven fusion rockets use electric fields to disperse particles.
  • The new design gives scientists the amount of emphasis for a mission

Dr.  Fatima Abrahami has invented a new fusion rocket that could one day take humans to Mars

Dr. Fatima Abrahami has invented a new fusion rocket that could one day take humans to Mars

Dr. Fatima Ibrahimi, who works for the US Department of Energy’s Princeton Plasma Physics Laboratory (PPPL), has invented a new fusion rocket that could one day take humans to Mars.

The instrument uses a magnetic field to shoot plasma particles from the back of the rocket and propel the craft through space.

Using a magnetic field allows scientists to overcome the amount of thrust for a particular mission and astronauts change the amount of thrust when piloting aircraft in distant worlds.

Abrahami’s novelty will take space-fueled heroes 10 times faster than current rocket thrusters from red rockets that use electric fields to disperse particles.

Ibrahimi said, “I’ve been cooking this concept for some time.”

‘I got the idea in 2017, sitting on a deck and thinking about the similarity between the exhaust of the car and the high-velocity particles.’

‘During its operation, it produces magnetic bubbles called tokamac plasmoids that move at a speed of about 20 kilometers per second, which seemed to me very loud.’

Fusion is the power that drives the sun and the stars, and combines light elements in the form of plasma.

The device uses a magnetic field to shoot plasma particles from the back of the rocket and propel the craft through space.

The device uses a magnetic field to shoot plasma particles from the back of the rocket and propel the craft through space.

Plasma is a hot, charged state of matter composed of free electrons and atomic nuclei that represent 99 percent of the visible universe – and is capable of generating enormous amounts of energy.

Scientists are working around the clock to replicate fusion in a laboratory with the hope of using their power to produce electricity for rockets passing deep into space.

Current plasma thrusters that use electric fields to disperse particles can only produce less specific impulses or motions.

But computer simulations performed at the PPPL Computer and National Energy Research Scientific Computing Center, a DOE office of the Science User Facility at Lawrence Berkeley National Laboratory in Berkeley, California, showed that the new plasma thruster concept produces exhaust with a velocity of hundreds of kilometers per kilometer Can. Secondly, 10 times faster than other thrusters.

The high velocity at the start of a spacecraft’s journey can bring astronauts within reach of astronauts, Ibrahimi said.

“Long-distance travel takes months or years because the specific impulse of chemical rocket engines is very low, so it takes a little time for the craft to gain momentum,” she said.

Using a magnetic field allows scientists to overcome the amount of thrust for a particular mission and astronauts change the amount of thrust when piloting aircraft in distant worlds.

Using a magnetic field allows scientists to overcome the amount of thrust for a particular mission and astronauts change the amount of thrust when piloting aircraft in distant worlds.

‘But if we make thrusters based on magnetic reengineering, then we can complete long-range missions in a long time.’

Although using fusion for power rockets is not a new concept, Abraham’s throne differs from pioneering devices in three ways.

The first is that changing the strength of the magnetic field can increase or decrease the amount of thrust, which will allow better maneuver through the dark abyss of space.

“By using more electromagnets and more magnetic fields, you can bend a knob to correct the impact velocity,” Ibrahimi said.

Second, the new thresher produces movement by rejecting both plasma particles and magnetic bubbles known as plasmoids.

Plasmoids add power to propulsion and no other thruster concept incorporates them.

However, the ultimate difference between Abrahami’s concept and others is that his magnetic field is used to shoot plasma particles from the back of a rocket – space-proven devices that use electric fields.

Using a magnetic field can be a game changer, as it allows scientists to tailor the amount of thrust for a particular mission.

Ibrahimi said, “While other thrusters require heavy gas, which is made up of atoms like Xenon, in this concept you can use any type of gas.” Scientists may prefer light gas in some cases because smaller atoms can move more quickly.

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