In a previous paper the authors proposed a Coulomb gauge A,V-A-psi formulation for quasi-static transient eddy current problems using V=0, instead of A . n=0, as guage condition on the conductor boundary. Further numerical experimentation using either V=0 or A . n=0 on different parts of the conductor boundary, however, has shown that, rather unexpectedly, J . n=0 is numerically more weakly enforced where V=0 is used. Hence, in spite of some advantages of V=0, A . n=0 still seems to be a better choice, after all. A theoretical explanation for this unexpected drawback of V=0 has been found and is presented here in detail.
Comparison of conditions v=0 and a-n=0 on conductor boundaries in ajv-a-h' formulations
Alotto, P.;Molfino, P.;Nervi, M.
1996-01-01
Abstract
In a previous paper the authors proposed a Coulomb gauge A,V-A-psi formulation for quasi-static transient eddy current problems using V=0, instead of A . n=0, as guage condition on the conductor boundary. Further numerical experimentation using either V=0 or A . n=0 on different parts of the conductor boundary, however, has shown that, rather unexpectedly, J . n=0 is numerically more weakly enforced where V=0 is used. Hence, in spite of some advantages of V=0, A . n=0 still seems to be a better choice, after all. A theoretical explanation for this unexpected drawback of V=0 has been found and is presented here in detail.
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