Antimatter motor
Antimatter would be an effective fuel for interstellar spacecraft
Antimatter would be the most effective power source in the world. It will be the most suitable motor for interstellar spacecraft, but the problem is that thing is very reactive. And actually one of the biggest problems with this kind of motor is that the gram of antimatter would turn the entire planet to the molecular nebula. So this kind of motor can produce only outside of our solar system. Producing antimatter would need large particle accelerators, and that kind of systems might look like giant donuts, what is floating on the space.
There are two ways to create the antimatter motor, one is to store the anti-ions in the magnetic bottle, where the pushing magnetic field will keep those ions away from the wall of the bottle, and then the antimatter would conduct to the water or some other particle. The huge explosion or annihilation reaction would send the rocket to a very high speed. The antimatter would also produce in the spacecraft itself, but there is need the enormous systems to create the thing.
The producing the antimatter would happen the same way, what it is made in the CERN or other particle accelerators. And there might be used the anti-electrons or positrons in this kind of system. Positrons would produce in the particle accelerator, and then they would conduct to the particle, what is made by normal material, and they can create a huge punch for the spacecraft.
Antimatter would store in the superconducting magnetic balls.
But if we would not want to make spacecraft, what has the ability to create the antimatter itself, we can play with some balls. If those balls are extremely low temperature, they would be superconducting, and that antimatter storage would not need an external power source.
This system has given an idea for "Teller's bomb". The satellite, what will store the ball, which involves the antimatter in the thermos bottle, and then it will shoot that ball to the target. When the ball will impact, the core will turn to pancake, and then the antimatter would contact the material.
The antimatter would be stored in the magnetic balls at the place, where it will produce, and then those balls will transfer to the spacecraft, and after that, it will just break. And that would make the antimatter contact with the material, and sometimes there have been plans to use the abrasive blast to that thing.
The sand or snow or another kind of dust would target the magnetic ball, what is made by using iron, and at the first laser or some other electromagnetic radiation would break the core of that ball, and then the dust will blow to the antimatter. The thing is that the magnetic iron ball would keep the anti-matter ions away from the core of that ball.
Antimatter would be an effective fuel for interstellar spacecraft
Antimatter would be the most effective power source in the world. It will be the most suitable motor for interstellar spacecraft, but the problem is that thing is very reactive. And actually one of the biggest problems with this kind of motor is that the gram of antimatter would turn the entire planet to the molecular nebula. So this kind of motor can produce only outside of our solar system. Producing antimatter would need large particle accelerators, and that kind of systems might look like giant donuts, what is floating on the space.
There are two ways to create the antimatter motor, one is to store the anti-ions in the magnetic bottle, where the pushing magnetic field will keep those ions away from the wall of the bottle, and then the antimatter would conduct to the water or some other particle. The huge explosion or annihilation reaction would send the rocket to a very high speed. The antimatter would also produce in the spacecraft itself, but there is need the enormous systems to create the thing.
The producing the antimatter would happen the same way, what it is made in the CERN or other particle accelerators. And there might be used the anti-electrons or positrons in this kind of system. Positrons would produce in the particle accelerator, and then they would conduct to the particle, what is made by normal material, and they can create a huge punch for the spacecraft.
Antimatter would store in the superconducting magnetic balls.
But if we would not want to make spacecraft, what has the ability to create the antimatter itself, we can play with some balls. If those balls are extremely low temperature, they would be superconducting, and that antimatter storage would not need an external power source.
This system has given an idea for "Teller's bomb". The satellite, what will store the ball, which involves the antimatter in the thermos bottle, and then it will shoot that ball to the target. When the ball will impact, the core will turn to pancake, and then the antimatter would contact the material.
The antimatter would be stored in the magnetic balls at the place, where it will produce, and then those balls will transfer to the spacecraft, and after that, it will just break. And that would make the antimatter contact with the material, and sometimes there have been plans to use the abrasive blast to that thing.
The sand or snow or another kind of dust would target the magnetic ball, what is made by using iron, and at the first laser or some other electromagnetic radiation would break the core of that ball, and then the dust will blow to the antimatter. The thing is that the magnetic iron ball would keep the anti-matter ions away from the core of that ball.
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