Evolution of magnetic field in a Z-pinch?

AI Thread Summary
The magnetic field in a Z-pinch evolves based on the location of measurement and the total current enclosed by a closed loop, as described by Ampere's law. While the field does not increase outside the plasma column as the pinch contracts, it does strengthen within the pinch if uniform current density is assumed. Z-pinches are transient and often unstable, leading to significant 3-D distortions that can affect the magnetic field. The strength of the magnetic field can vary widely, with some experiments achieving fields in the range of 10 to 100 Tesla. For further reading, resources on intermediate to advanced levels can be found in specialized books and articles on plasma physics and Z-pinch dynamics.
Sven Andersson
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How does the magnetic field in a Z-pinch develop with time? Does it get stronger and stronger as the pinch contracts? How strong? Where can I read about it on an intermediate or perhaps advanced level? I'm looking for both books and articles.

S.A.
 
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Sven Andersson said:
How does the magnetic field in a Z-pinch develop with time? Does it get stronger and stronger as the pinch contracts? How strong? Where can I read about it on an intermediate or perhaps advanced level? I'm looking for both books and articles.

S.A.

It depends on where you measure the magnetic field. From Ampere's law we know that the magnetic field only depends on the total current enclosed by a closed loop. If you measure the magnetic field outside the plasma column, then no the magnetic field won't increase as the pinch contracts. However, if you measure the field somewhere inside the pinch (and assuming a uniform current density) then yes the field will increase.

There are also other factors that affect the strength of the magnetic field. Z-pinches can be short lived experiments which never truly reach a steady-state. Here you have consider the pinch as a part of a RLC circuit. The total current flowing through the pinch will depend on the resistance, capacitance, and inductance of the circuit.

Finally, Z-pinches are notoriously unstable. The instabilities lead to large scale 3-D distortions of plasma column. These distortions also effect the magnetic field.
 
the_wolfman said:
It depends on where you measure the magnetic field. From Ampere's law we know that the magnetic field only depends on the total current enclosed by a closed loop. If you measure the magnetic field outside the plasma column, then no the magnetic field won't increase as the pinch contracts. However, if you measure the field somewhere inside the pinch (and assuming a uniform current density) then yes the field will increase.

There are also other factors that affect the strength of the magnetic field. Z-pinches can be short lived experiments which never truly reach a steady-state. Here you have consider the pinch as a part of a RLC circuit. The total current flowing through the pinch will depend on the resistance, capacitance, and inductance of the circuit.

Finally, Z-pinches are notoriously unstable. The instabilities lead to large scale 3-D distortions of plasma column. These distortions also effect the magnetic field.

Could you or someone else give an estimate or guess of how strong the magnetic field is inside the pinch? I recently read that various pinch experiments have been used to produce extremely strong magnetic fields? So is the field very strong? 10 Tesla or 100 Tesla?
 

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