Jeff Hiller
COMSOL Employee
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Posted:
8 years ago
2017年5月1日 GMT-4 08:51
Hello Ilan,
The circular definition comes from the fact that the definition of J contains sigma.
Could you express the conductivity as a function of the electric field E instead?
Best,
Jeff
Hello Ilan,
The circular definition comes from the fact that the definition of J contains sigma.
Could you express the conductivity as a function of the electric field E instead?
Best,
Jeff
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Posted:
8 years ago
2017年5月16日 GMT-4 10:14
Hi Jeff,
I'm not sure how could that help. I have to have some dependency in the current density (as in a real superconductor). The dependency can come from either the conductivity or electrical field. They both end up with circularity.
I thought about:
1. Using the PDE model instead and defining it there but I'm not that familiar with the PDE model and don't know how to define there the "normal current density" and "ground" for where should the current flow.
2. Using the magnetic field formulation and and after solving, converting the magnetic field to current density but I don't how to define the appropriate magnetic field to get the wanted induced current in my geometry.
Any advice?
Hi Jeff,
I'm not sure how could that help. I have to have some dependency in the current density (as in a real superconductor). The dependency can come from either the conductivity or electrical field. They both end up with circularity.
I thought about:
1. Using the PDE model instead and defining it there but I'm not that familiar with the PDE model and don't know how to define there the "normal current density" and "ground" for where should the current flow.
2. Using the magnetic field formulation and and after solving, converting the magnetic field to current density but I don't how to define the appropriate magnetic field to get the wanted induced current in my geometry.
Any advice?
Jeff Hiller
COMSOL Employee
Please login with a confirmed email address before reporting spam
Posted:
8 years ago
2017年5月16日 GMT-4 12:19
Updated:
8 years ago
2017年5月16日 GMT-4 12:31
Think of it this way:
Let's say that in a linear iteration, you have an approximation to the V field.
If sigma is expressed as a function of J, you cannot compute J based on its definition as sigma times E because sigma cannot be computed without already knowing J: circular dependency.
BUT, if sigma is available as a function of E, you can get J by multiplying sigma(E) by E (Since E can be computed from V, which you have).
If you need further assistance, please contact the Technical Support Team (support@comsol.com).
Best regards,
Jeff
Think of it this way:
Let's say that in a linear iteration, you have an approximation to the V field.
If sigma is expressed as a function of J, you cannot compute J based on its definition as sigma times E because sigma cannot be computed without already knowing J: circular dependency.
BUT, if sigma is available as a function of E, you can get J by multiplying sigma(E) by E (Since E can be computed from V, which you have).
If you need further assistance, please contact the Technical Support Team (support@comsol.com).
Best regards,
Jeff