The antimatter motor would use only electrons and positrons for creating better thrust than photon rocket.
The antimatter motor would use only electrons and positrons for creating better thrust than photon rocket.
The one form of the antimatter motor, what can be possible is simple to use positrons and electrons, what will collide outside the rocket. The idea is that when the antimatter motor would operate it would use one particle accelerator, what will shoot positrons or anti-electrons in the middle of the great shield, and around that structure are the electron cannons, what shoots electrons in that shower of the antielectrons.
That propellant would be easy to make, and the electrons are everywhere. That system would use high voltage electric cannons, which will shoot electrons to the shower of positrons. The impact of those two particle types would happen outside the spacecraft, which will be pushed forward. The idea of this kind of rockets is that they might make greater punch than photon rocket. And it would bases technology, what is already existed. The accelerator would send to space in pieces, what just put together.
One of the things in this system would be that electrons would pull positrons to them, and then the system would create very hot and powerful annihilation. The antimatter rocket, what uses this kind of technology would be possible to create by using the technology, where the linear particle accelerator is used to create the positrons, and that system would be connected to the nuclear reactor.
In real-world, this kind of systems is not technically very hard to make. But the prize of those systems is very high. And that makes them hard to create in a financial point of view because the construction and building processes need very many launches, and we would need also a clear target for that mission. The probe must be equipped also with highly sophisticated artificial intelligence. And the communication with the probe would be extremely difficult.
So the target for that kind of systems must be very extraordinary, that it would be done. The use of that kind of systems would be safer, than using the antiprotons or antihydrogen. The accelerator would create positrons by the speed when they are used in the annihilation reaction. And when the power is switched off the production of positrons would be stopped. So that material would not be needed to store in a magnetic bottle, where it would not touch the wall of the tank, which will cause a huge explosion.
That makes this project expensive, and this version is modified photon rockets, where the photon is replaced with electrons and the speed of those particles could increase near the speed of light. But the problem is that only light can reach the speed of light, and that's why researchers are talking about photon rocket one of the most capable versions of the rocket, what will someday send a human being to the interstellar journey.
The thing what makes photon rocket very complicated thing is that the thrust of that rocket would be so poor. The accelerating rocket to the speed of light or near the speed of light would take even hundreds of years, and that's why the rocket would need something, what will give more punch to that system.
One of the biggest problems with the rocket is it needs a very much fuel and in the space also decreasing the speed must be done by using the rocket, what will thrust is turning forward. And that thing means that the decreasing the speed of spacecraft would need the same mass of fuel, what is used in accelerating process. The fuel pack for photon rocket is quite small, and that rocket would shoot the photons backward.
That thing makes it act like a giant lamp, but the thing is that the thrust of that system should be greater. One thing what some physics have introduced for solution for that kind of problem is the use of electrons and positrons in the same way as the hypothetical fusion motors use the fuel. The thing is working that the pellet of helium 3 would shoot through the cannon and the lasers would target to that pellet.
But the speed, what that system could create, will be something like a couple of percent of the speed of light. But if we would use antielectrons and electrons the thrust of the system would increase, and the fusion would happen outside the spacecraft, behind the great shield, what would give the surface, what the particles will impact and push the craft forward.
The one form of the antimatter motor, what can be possible is simple to use positrons and electrons, what will collide outside the rocket. The idea is that when the antimatter motor would operate it would use one particle accelerator, what will shoot positrons or anti-electrons in the middle of the great shield, and around that structure are the electron cannons, what shoots electrons in that shower of the antielectrons.
That propellant would be easy to make, and the electrons are everywhere. That system would use high voltage electric cannons, which will shoot electrons to the shower of positrons. The impact of those two particle types would happen outside the spacecraft, which will be pushed forward. The idea of this kind of rockets is that they might make greater punch than photon rocket. And it would bases technology, what is already existed. The accelerator would send to space in pieces, what just put together.
One of the things in this system would be that electrons would pull positrons to them, and then the system would create very hot and powerful annihilation. The antimatter rocket, what uses this kind of technology would be possible to create by using the technology, where the linear particle accelerator is used to create the positrons, and that system would be connected to the nuclear reactor.
In real-world, this kind of systems is not technically very hard to make. But the prize of those systems is very high. And that makes them hard to create in a financial point of view because the construction and building processes need very many launches, and we would need also a clear target for that mission. The probe must be equipped also with highly sophisticated artificial intelligence. And the communication with the probe would be extremely difficult.
So the target for that kind of systems must be very extraordinary, that it would be done. The use of that kind of systems would be safer, than using the antiprotons or antihydrogen. The accelerator would create positrons by the speed when they are used in the annihilation reaction. And when the power is switched off the production of positrons would be stopped. So that material would not be needed to store in a magnetic bottle, where it would not touch the wall of the tank, which will cause a huge explosion.
That makes this project expensive, and this version is modified photon rockets, where the photon is replaced with electrons and the speed of those particles could increase near the speed of light. But the problem is that only light can reach the speed of light, and that's why researchers are talking about photon rocket one of the most capable versions of the rocket, what will someday send a human being to the interstellar journey.
The thing what makes photon rocket very complicated thing is that the thrust of that rocket would be so poor. The accelerating rocket to the speed of light or near the speed of light would take even hundreds of years, and that's why the rocket would need something, what will give more punch to that system.
One of the biggest problems with the rocket is it needs a very much fuel and in the space also decreasing the speed must be done by using the rocket, what will thrust is turning forward. And that thing means that the decreasing the speed of spacecraft would need the same mass of fuel, what is used in accelerating process. The fuel pack for photon rocket is quite small, and that rocket would shoot the photons backward.
That thing makes it act like a giant lamp, but the thing is that the thrust of that system should be greater. One thing what some physics have introduced for solution for that kind of problem is the use of electrons and positrons in the same way as the hypothetical fusion motors use the fuel. The thing is working that the pellet of helium 3 would shoot through the cannon and the lasers would target to that pellet.
But the speed, what that system could create, will be something like a couple of percent of the speed of light. But if we would use antielectrons and electrons the thrust of the system would increase, and the fusion would happen outside the spacecraft, behind the great shield, what would give the surface, what the particles will impact and push the craft forward.
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