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Who cares, where electrons jump, when a photon strikes it?

 


Who cares, where electrons jump, when a photon strikes it?

When German researchers confirmed the theory, that when the photon hits to electron it would jump to the direction of the photon, that thing is in series "small step to humans, but a big step for the entire human race".  Who cares about the direction, where electron jumps, when the particle of the light would strike it. 

But what would you do with the system, what can affect the trajectory of an electron without a magnetic field?

The observation about the direction, where the electrons are moving, when the photon hits them would make the free-electron lasers more effective than ever before. That kind of system is creating the laser-ray by changing the trajectory of the electrons. 

When the electron is traveling in the particle accelerator and chancing its trajectory it releases a photon. So what if the electron would put oscillating in the electric chamber by stressing it by using laser rays when the energy is pumping to the chamber. 

That thing where the energy is pumping to the electrons by using radio waves can make it possible to make the small-size free-electron lasers, which can be used to scan the surfaces. The problem with this kind of system is the oscillation of electron. 

One of the most futuristic rocket engines would increase the thrust by benefiting that effect. 

This thing is important when we are thinking about engines that are almost as much capable of the WARP-engine. The photon is the only particle in the world that can reach the speed of light. So what if the electrons or other particles that would pull through the accelerator would also send the photons backward?

The problem with photon rockets and other kinds of systems is their weak thrust. So what if the thrust of the WARP or photon rocket would increase by using electrons as an auxiliary propellant? In that case, the photons would shoot to the electron flow, which would travel through the engine, and the photons would give more movement energy or at least speed to those things. 

The idea is to change to hybridize WARP and photon rocket. When the trajectory of electrons will change they would send photon to backward. 

In this case, the electrons would flow through the chamber, and then they would stress by shooting photons to them. That thing would give more energy to the electrons, and the thing is that the photons would not have a very high thrust. 

But if the electron and photon engine will connect, that thing helps to make the photon rockets more powerful. Normally the accelerating of the photon rocket would take even tens of years, but the larger mass particles like electrons will increase the thrust of that kind of system. 


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