「$Withionmove」：修訂間差異

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.

${\displaystyle \frac{\partial M_{ion}}{\partial t}=\mathrm{\nabla }((q_{sign})e\mu M_{ion}\overrightarrow{E}-q{D}_M\mathrm{\nabla }{M}_{ion})}$

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
${\displaystyle N_{s}weep}$ ${\displaystyle N_{o}utput}$
${\displaystyle T_{1,stop}}$  ${\displaystyle d{t}_1}$ ${\displaystyle T_{2,stop}}$  ${\displaystyle d{t}_2}$ ... ${\displaystyle T_{N_{sweep},stop}}$  ${\displaystyle d{T}_{M_{sweep}}}$
${\displaystyle N_{ions}{q}_{sign,1}{q}_{sign,2}{q}_{sign,3}....q_{sign,N_{ions}}}$
${\displaystyle Paramete{r}_{type,1}{M}_{ions,1}\mu }$ p3 p4 Parameters of the 1 layer
${\displaystyle Paramete{r}_{type,2}{M}_{ions,2}\mu }$ p3 p4 Parameters of the 2 layer
${\displaystyle Paramete{r}_{type,3}{M}_{ions,3}\mu }$ p3 p4 Parameters of the 3 layer
 ....
${\displaystyle Paramete{r}_{type,N}{M}_{ions,N}\mu }$ p3 p4 Parameters of the $totalregion layer

For example: Consider 2 ions, 1st is negative charges, 2nd is positive charges, total 5 Regions we can

$Withionmove
1 1000
1.00  1.0d-4 
2 -1.0 1.0
1 0.0e17 0.0      0.0e17 0.0   
1 1.0e17 1.0e-11  2.0e17 1.0e-12
1 1.0e17 1.0e-11  2.0e17 1.0e-12
1 1.0e17 1.0e-11  2.0e17 1.0e-12
1 1.0e17 1.0e-11  2.0e17 1.0e-12