「$cavitygainedge」：修訂間差異

於 2024年11月22日 (五) 10:55 的最新修訂

$cavitygainedge command is used to help to calculate the cavity gain in the end of gain calculation.
The input format is

$cavitygainedge
R1  R2  cavity-Length

After obtaining the intrinsic gain of laser diode structure. The program calculate the optical mode and also calculate the
$Γ$ in each ddcc layer. Ideally, the cavity can be calculated by

 $g_{c a v} = \sum Γ_{Q W} \times g a i n$ .

Effective absorption loss can be calculated by

 $α_{e f f} = Γ_{i, l o s s l a y e r} \times α_{i}$ .

By the formula, can know that to obtain the gain

 $g_{c a v} > α_{e f f} - \frac{1}{2 L} \times l n (R 1 \times R 2)$ .

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

The parameters are modified in Step 3.

@@ 第7行： / 第7行： @@
 After obtaining the intrinsic gain of laser diode structure. The program calculate the optical mode and also calculate the <br>
 <math>\Gamma</math> in each ddcc layer. Ideally, the cavity can be calculated by
-  <math>\sum \Gamma_{QW} \times gain</math>.
+  <math>g_{cav} = \sum \Gamma_{QW} \times gain</math>.
 Effective absorption loss can be calculated by
   <math> \alpha_{eff}= \Gamma_{i,loss layer} \times \alpha_{i} </math>.
 By the formula, can know that to obtain the gain
-  <math>\sum \Gamma_{QW} \times gain > </math>.
+  <math>g_{cav}  > \alpha_{eff} - \frac{1}{2L}\times ln (R1\times R2) </math>.
+<big>'''The $cavitygainedge setting for 1D-DDCC in GUI interface '''</big> <br>
+The parameters are modified in '''Step 3'''.<br>
+[[檔案:1d_$cavitygainedge_fig1.jpg|1300px]]<br>

「$cavitygainedge」：修訂間差異

於 2024年11月22日 (五) 10:55 的最新修訂

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