「$solvetimestep」：修訂間差異

於 2025年1月4日 (六) 13:16 的最新修訂

$solvetimestep is a command for solving the transient behavior of the device. The format is

$solvetimestep
number_of_different_steps(Nt)
steptype  $δ t t_{t o t a l}$  par1 par2 par3 par4 ....    
steptype  $δ t t_{t o t a l}$  par1 par2 par3 par4 ....    
...
steptype  $δ t t_{t o t a l}$  par1 par2 par3 par4 ....    repeat Nt times

The number of parameters depeding on step type. Now we have 3 step types

Steptype  = 1:  

 $δ t, t_{t o t a l}, v g_{0}$ 

 vg=vg_end for t<0, for t>0, vg= $v g_{0}$

Steptype  = 2:  

 $δ t, t_{t o t a l}, v g_{0}, A_{0}, ω, c_{0}$ 

 $v g = v g_{0} + A_{0} \times s i n (2 π ω t + c_{0})$

Steptype  = 3:  

 $δ t, t_{t o t a l}, v g_{0}, A_{0}, ω, c_{0}$ 

 $v g = v g_{0} + i n t (A_{0} \times s i n (2 π ω t + c_{0}))$

For example:

$solvetimestep
2
2 1.0e-10 1.0e-6 3.00 0.1 1.0e6 0.0 
1 1.0e-10 1.0e-6 3.20 
first run
  $v g = 3.0 + 0.1 \times s i n (2 π \times 1 0^{6} t)$ 

then run
  $v g = 3.2$

The $solvetimestep setting for 1D-DDCC in GUI interface

3.Modify the number of layers.

4.Choose the steptype.
5.Modify the parameters.

@@ 第38行： / 第38行： @@
 <big>'''The $solvetimestep setting for 1D-DDCC in GUI interface '''</big> <br>
-.Modify the number of layers.<br>
+.Modify the '''number of layers'''.<br>
 [[檔案:1d_$solvetimestep_fig1.jpg|1300px]]<br>
-.Choose the steptype.<br>
+.Choose the '''steptype'''.<br>
-.Modify the parameters.<br>
+.Modify the '''parameters'''.<br>
-[[檔案:1d_$solvetimestep_fig2.jpg|1300px]]<br>
+[[檔案:1d_$solvetimestep_fig2.jpg|700px]]<br>

「$solvetimestep」：修訂間差異

於 2025年1月4日 (六) 13:16 的最新修訂

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