What Happens to Electrons in the Center of Polywell Fusion Reactors?

  • Thread starter Thread starter Crazymechanic
  • Start date Start date
  • Tags Tags
    Electrons
AI Thread Summary
Electrons in the center of polywell fusion reactors are trapped by magnetic fields generated by coils, forming a negative potential well. While they can remain stable for a time, they may drift away due to the non-uniformity of the magnetic fields and interactions with protons. The magnetic field creates regions known as "cusps," where electrons can escape. Although high temperatures could theoretically provide enough energy to eject electrons, the plasma temperature in polywell reactors is typically insufficient for this. Overall, while electrons can be contained for a period, they are not completely immune to leakage over time.
Crazymechanic
Messages
831
Reaction score
12
Hi , now I was thinking what happens with the electrons that are in the middle of the polywell trapped by the magnetic field coming from the coils?
Assuming there is plasma and some fusion takes place at some rate " x" , what actually happens with the electrons in the middle , do they say there and keep the negative potential or are they slowly drifting away with time due to the magnetic field and the protons hitting them ?
 
Physics news on Phys.org
They stay in the center and form a negative potential well except for the ones that manage to leak out between the magnets.
 
so your saying that no matter how intense the fusion rate if the magnetic fields are strong enough and keep them in the middle long enough , they will stay there , if only for the mag field being nonuniform they can leak otherwise their steady there ?
By steady I mean , as steady as a charged particle can be in a magnetic field , ofcourse it will drift away after a while probably.
 
The field from each electromagnet interacts with the other fields from the other magnets and forms a "cusp". The cusp is the region where the magnetic field lines meet. Electrons can leak out through these cusps. Other than leaving through the cusps, electrons can get ejected if you give them a large enough kick, but the temperature of the plasma in the polywell isn't high enough to give them this kick as far as I know.

MaGrid_Operating-TomLigon-Field-2.jpg
 

Thread 'Reflections at the source point of a transmission line'

I was using the Smith chart to determine the input impedance of a transmission line that has a reflection from the load. One can do this if one knows the characteristic impedance Zo, the degree of mismatch of the load ZL and the length of the transmission line in wavelengths. However, my question is: Consider the input impedance of a wave which appears back at the source after reflection from the load and has traveled for some fraction of a wavelength. The impedance of this wave as it...
View full post »

Similar threads

How Do Magnetic Mirrors Enhance Fusion Reactor Efficiency?
Replies
12
Views
3K
I How induction works within a coil (nuances of it)
Replies
6
Views
2K
How Does Magnetic Force Affect a Falling Coil's Velocity and Kinetic Energy?
Replies
10
Views
2K
I Understanding dissipation of energy in a resistor through the Drude model
Replies
1
Views
2K
I What is the origin of Lorenz force?
Replies
5
Views
2K
Cylindrical and Symmetrical Nuclear Fusion Reactor
Replies
19
Views
3K
B How is surface charge accumulated?
Replies
36
Views
6K
I Magnetic field as result of length contraction
Replies
20
Views
4K
Charged particles through various B field shapes quesion
Replies
3
Views
2K
What happens when a proton and an electron collide?
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top