"$cavitygainedge" 修訂間的差異

出自 DDCC TCAD TOOL Manual
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After obtaining the intrinsic gain of laser diode structure. The program calculate the optical mode and also calculate the <br>
 
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>\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
 
Effective absorption loss can be calculated by
 
<math> \alpha_{eff}= \Gamma_{i,loss layer} \times \alpha_{i} </math>.
 
<math> \alpha_{eff}= \Gamma_{i,loss layer} \times \alpha_{i} </math>.
 
By the formula, can know that to obtain the gain
 
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>.

於 2018年9月11日 (二) 11:32 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
\Gamma in each ddcc layer. Ideally, the cavity can be calculated by

g_{cav} = \sum \Gamma_{QW} \times gain. 

Effective absorption loss can be calculated by

 \alpha_{eff}= \Gamma_{i,loss layer} \times \alpha_{i} . 

By the formula, can know that to obtain the gain

g_{cav}  > \alpha_{eff} - \frac{1}{2L}\times ln (R1\times R2) .