"$Withionmove" 修訂間的差異

於 2019年8月18日 (日) 11:07 的修訂

When the system has ion to perform as drift-diffusion equations, we solve the time dependent drift-diffusion for slow ion move simulation. Since the ion moves may not be governed fermi-level concept. We simply treat is a tradiational drift-diffusion equations.

 $\frac{\partial M_{ion}}{\partial t} = \nabla \left( (q_{sign}) e\mu M_{ion} \vec{E} - q D_{M} \nabla M_{ion} \right)$

Ideally, the ion density is given by initial setting. The total ion number should be fixed. The program is aim to model multi-ions drift-diffusion. The command is as following.

$Withionmove
 $N_sweep$   $N_output$ 
 $T_{1,stop}$    $dt_{1}$   $T_{2,stop}$    $dt_{2}$  ...  $T_{N_{sweep},stop}$    $dT_{M_{sweep}}$ 
 $N_{ions} ~~ q_{sign,1} ~~ q_{sign,2} ~~ q_{sign,3} ....~~ q_{sign,N_{ions}}$ 
 $Parameter_{type,1} ~~ M_{ions,1} \mu p3 p4 ....$    Parameters of the 1 layer
 $Parameter_{type,2} ~~ M_{ions,2} \mu p3 p4 ....$    Parameters of the 2 layer
 $Parameter_{type,3} ~~ M_{ions,3} \mu p3 p4 ....$    Parameters of the 3 layer
 ....
 $Parameter_{type,N} ~~ M_{ions,N} \mu p3 p4 ....$    Parameters of the $totalregion layer

@@ 行 8： / 行 8： @@
  <math>T_{1,stop}</math>  <math>dt_{1}</math> <math>T_{2,stop}</math>  <math>dt_{2}</math> ... <math>T_{N_{sweep},stop}</math>  <math>dT_{M_{sweep}}</math>
  <math> N_{ions} ~~ q_{sign,1} ~~ q_{sign,2} ~~ q_{sign,3}  ....~~ q_{sign,N_{ions}} </math>
+ <math> Parameter_{type,1} ~~ M_{ions,1} \mu p3 p4 .... </math>   Parameters of the 1 layer
+ <math> Parameter_{type,2} ~~ M_{ions,2} \mu p3 p4 .... </math>   Parameters of the 2 layer
+ <math> Parameter_{type,3} ~~ M_{ions,3} \mu p3 p4 .... </math>   Parameters of the 3 layer
+  ....
+ <math> Parameter_{type,N} ~~ M_{ions,N} \mu p3 p4 .... </math>   Parameters of the [[$totalregion]] layer

"$Withionmove" 修訂間的差異

於 2019年8月18日 (日) 11:07 的修訂

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