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Posted:
4 years ago
2020年6月10日 GMT-4 04:31
Updated:
4 years ago
2020年6月10日 GMT-4 04:31
Theoretically, it is possible even with a highly complicated kinetic model.
However, in my experience, converging is very hard.
If your model is quite simple, you may use 'plasma , time periodic' module in Plasma interface
goodluck
Theoretically, it is possible even with a highly complicated kinetic model.
However, in my experience, converging is very hard.
If your model is quite simple, you may use 'plasma , time periodic' module in Plasma interface
goodluck
Please login with a confirmed email address before reporting spam
Posted:
4 years ago
2020年6月29日 GMT-4 18:12
Theoretically, it is possible even with a highly complicated kinetic model.
However, in my experience, converging is very hard.
If your model is quite simple, you may use 'plasma , time periodic' module in Plasma interface
goodluck
Yes the solution is not converging and my model is not simple i guess.
I have imported an external CR circuit (.cir) to produce nanosecond voltage and also I am using plasma interfce. I have attached the electrical circuit. Does anything else is needed to connect two interfaces ( I have defined a metal contact as the discharge component and the ground under the plasma interface).
I am getting several errors and the model in not converging. Can you guide me please.
ERROR:
Attempt to evaluate real square root of negative number. - Function: sqrt Failed to evaluate variable. - Variable: comp1.plas.nue_th - Defined as: sqrt((comp1.plas.Te(e_const8))/(pime_const)) Failed to evaluate variable. - Variable: comp1.plas.ne_bnd - Defined as: (((-0.5)comp1.plas.nue_th)comp1.plas.ne)+comp1.plas.sflux Failed to evaluate variable. - Variable: comp1.plas.nJe - Defined as: e_constcomp1.plas.ne_bnd Failed to evaluate expression. - Expression: (((-comp1.plas.nJt)-comp1.plas.nJe)-(comp1.plas.nxcomp1.plas.Jdx))comp1.plas.A Failed to evaluate expression. - Expression: comp1.plas.intmct1((((-comp1.plas.nJt)-comp1.plas.nJe)-(comp1.plas.nxcomp1.plas.Jdx))comp1.plas.A) Failed to evaluate variable. - Variable: comp1.plas.I_1 - Defined as: comp1.plas.intmct1((((-comp1.plas.nJt)-comp1.plas.nJe)-(comp1.plas.nxcomp1.plas.Jdx))comp1.plas.A) Failed to evaluate expression. - Expression: d(-comp1.plas.I_1test(comp1.plas.mct1.V0e_1),{test@1}) Failed to evaluate Jacobian of expression. - Expression: -comp1.plas.I_1test(comp1.plas.mct1.V0e_1
>Theoretically, it is possible even with a highly complicated kinetic model.
>However, in my experience, converging is very hard.
>If your model is quite simple, you may use 'plasma , time periodic' module in Plasma interface
>
>goodluck
Yes the solution is not converging and my model is not simple i guess.
I have imported an external CR circuit (.cir) to produce nanosecond voltage and also I am using plasma interfce. I have attached the electrical circuit. Does anything else is needed to connect two interfaces ( I have defined a metal contact as the discharge component and the ground under the plasma interface).
I am getting several errors and the model in not converging. Can you guide me please.
ERROR:
Attempt to evaluate real square root of negative number. - Function: sqrt Failed to evaluate variable. - Variable: comp1.plas.nue_th - Defined as: sqrt((comp1.plas.Te(e_const8))/(pime_const)) Failed to evaluate variable. - Variable: comp1.plas.ne_bnd - Defined as: (((-0.5)comp1.plas.nue_th)comp1.plas.ne)+comp1.plas.sflux Failed to evaluate variable. - Variable: comp1.plas.nJe - Defined as: e_constcomp1.plas.ne_bnd Failed to evaluate expression. - Expression: (((-comp1.plas.nJt)-comp1.plas.nJe)-(comp1.plas.nxcomp1.plas.Jdx))comp1.plas.A Failed to evaluate expression. - Expression: comp1.plas.intmct1((((-comp1.plas.nJt)-comp1.plas.nJe)-(comp1.plas.nxcomp1.plas.Jdx))comp1.plas.A) Failed to evaluate variable. - Variable: comp1.plas.I_1 - Defined as: comp1.plas.intmct1((((-comp1.plas.nJt)-comp1.plas.nJe)-(comp1.plas.nxcomp1.plas.Jdx))comp1.plas.A) Failed to evaluate expression. - Expression: d(-comp1.plas.I_1test(comp1.plas.mct1.V0e_1),{test@1}) Failed to evaluate Jacobian of expression. - Expression: -comp1.plas.I_1test(comp1.plas.mct1.V0e_1