How is current induced in the plasma in a tokamak?

AI Thread Summary
In a tokamak, current is induced in the plasma through a process similar to that of a transformer. A changing current is sent through a primary solenoid, which generates a time-varying magnetic field. This changing magnetic field interacts with the plasma, effectively treating it as a secondary winding, thereby inducing a current within it. The interaction between the magnetic fields is crucial for maintaining the plasma's stability and confinement. Understanding this mechanism is essential for studying nuclear fusion energy production.
Jan Berkhout
Messages
8
Reaction score
3
For a Year 12 Assignment I have to do a seminar on how magnetic fields are involved with a certain topic. I chose nuclear fusion energy production and specifically the tokamak. I understand that a toroidal magnetic field is created when a current is sent through a solenoid wrapped in a torus. And that in nuclear fusion, this field forces the plasma to move in circular motion around the tokamak. But, in a tokamak, from my understanding, another solenoid is placed vertically in the center of the tokamak. Apparently sending a current through this solenoid induces a current in the plasma. How does it do this? Is it because the magnetic field generated from the center solenoid interacts with the toroidal magnetic field and changes its strength, therefore creating a current in the wire? How is current induced in the plasma in a tokamak?
 
Physics news on Phys.org
Jan Berkhout said:
For a Year 12 Assignment I have to do a seminar on how magnetic fields are involved with a certain topic. I chose nuclear fusion energy production and specifically the tokamak. I understand that a toroidal magnetic field is created when a current is sent through a solenoid wrapped in a torus. And that in nuclear fusion, this field forces the plasma to move in circular motion around the tokamak. But, in a tokamak, from my understanding, another solenoid is placed vertically in the center of the tokamak. Apparently sending a current through this solenoid induces a current in the plasma. How does it do this? Is it because the magnetic field generated from the center solenoid interacts with the toroidal magnetic field and changes its strength, therefore creating a current in the wire? How is current induced in the plasma in a tokamak?

It is basically just a transformer. Are you familiar with how a transformer works? The changing current in the primary winding creates a changing magnetic field, which induces a current in the secondary winding. A Tokamak works the same way. A changing current (usually just a linear ramp) is sent through the primary solenoid, which creates a magnetic field which increases with time. The plasma acts as the secondary winding, so the changing magnetic field induces a current to flow in the plasma.
 
  • Like
Likes Jan Berkhout
phyzguy said:
It is basically just a transformer. Are you familiar with how a transformer works? The changing current in the primary winding creates a changing magnetic field, which induces a current in the secondary winding. A Tokamak works the same way. A changing current (usually just a linear ramp) is sent through the primary solenoid, which creates a magnetic field which increases with time. The plasma acts as the secondary winding, so the changing magnetic field induces a current to flow in the plasma.
Thank you! This is a great help!
 
Thread 'Inducing EMF Through a Coil: Understanding Flux'

Thread 'Inducing EMF Through a Coil: Understanding Flux'

Thank you for reading my post. I can understand why a change in magnetic flux through a conducting surface would induce an emf, but how does this work when inducing an emf through a coil? How does the flux through the empty space between the wires have an effect on the electrons in the wire itself? In the image below is a coil with a magnetic field going through the space between the wires but not necessarily through the wires themselves. Thank you.
View full post »
Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (Second part)'

Thread 'Griffith, Electrodynamics, 4th Edition, Example 4.8. (Second part)'

I am reading the Griffith, Electrodynamics book, 4th edition, Example 4.8. I want to understand some issues more correctly. It's a little bit difficult to understand now. > Example 4.8. Suppose the entire region below the plane ##z=0## in Fig. 4.28 is filled with uniform linear dielectric material of susceptibility ##\chi_e##. Calculate the force on a point charge ##q## situated a distance ##d## above the origin. In the page 196, in the first paragraph, the author argues as follows ...
View full post »

Similar threads

I MagLIF Magnetic Field Hypothesis
Replies
2
Views
2K
I Induced electric fields and induced magnetic fields confusion
Replies
9
Views
3K
Induced current in a coil from a constant uniform magnetic field?
Replies
5
Views
2K
I How induction works within a coil (nuances of it)
Replies
6
Views
2K
Plasma current direction in the presence of an external field
Replies
7
Views
2K
Tokamak question: What happens when you shine a laser on the plasma?
Replies
4
Views
2K
Can a Moving Magnetic Field Induce Eddy Currents in a Conductor?
Replies
1
Views
945
Current induced from a changing magnetic field
Replies
2
Views
2K
Induced magnetic field in a cylinder
Replies
3
Views
1K
Inducing currents without change of flux linkage?
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top