"$usetaunrbyfunc" 修訂間的差異

出自 DDCC TCAD TOOL Manual
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31: <math> \tau_{n} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math> , and <math> \tau_{p} = \tau_{n} </math>
 
31: <math> \tau_{n} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math> , and <math> \tau_{p} = \tau_{n} </math>
 
41: <math> \tau_{n} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math> , and <math> \tau_{p} = p5 + \left(\frac{P6-P5}{1+(\frac{N_{a}^{-1}}{p7}) ^{p8}} \right) </math>
 
41: <math> \tau_{n} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math> , and <math> \tau_{p} = p5 + \left(\frac{P6-P5}{1+(\frac{N_{a}^{-1}}{p7}) ^{p8}} \right) </math>
13: <math> \tau_{n,0} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math>, <math>\tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6} </math> , and <math> \tau_{p} = \tau_{n} </math>
+
131: <math> \tau_{n,0} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math>, <math>\tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6} </math> , and <math> \tau_{p} = \tau_{n} </math>
24: <math> \tau_{n,0} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math>, <math>\tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6} </math> , and
+
241: <math> \tau_{n,0} = p1 + \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) </math>, <math>\tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6} </math> , and
 
<math> \tau_{p,0} = p7 + \left(\frac{P8-P7}{1+(\frac{N_{a}^{-}}{p9}) ^{p10}} \right) </math>, <math>\tau_{p} = \tau_{p,0} \times (\frac{T}{p11}) ^{p12} </math>.
 
<math> \tau_{p,0} = p7 + \left(\frac{P8-P7}{1+(\frac{N_{a}^{-}}{p9}) ^{p10}} \right) </math>, <math>\tau_{p} = \tau_{p,0} \times (\frac{T}{p11}) ^{p12} </math>.

於 2018年4月2日 (一) 10:22 的修訂

$usetaunrbyfunc is to enable the temperature and carrier density dependent nonradiative lifetime module with the predefined function. The function is designed for each region. So if total n regions is used, then you will need to setup n regions. The format is

$usetaunrbyfunc
Type_R1  p1 p2 p3 p4 p5.....
Type_R2  p1 p2 p3 p4 p5.....
Type_R3  p1 p2 p3 p4 p5.....
...
...
... 
Type_RN  p1 p2 p3 p4 .....


Type

0: Use the original nonradiative lifetime defined in parameter setions
1:  \tau_{n} = p1 \times (\frac{T}{p3}) ^{p2}  , and  \tau_{p} = \tau_{n} 
2:  \tau_{n} = p1 \times (\frac{T}{p5}) ^{p3}  , and  \tau_{n} = p2 \times (\frac{T}{p5}) ^{p4} 
3:  \tau_{n} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}}{p3}) ^{p4}} \right)  , and  \tau_{p} = \tau_{n} 
4:  \tau_{n} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}}{p3}) ^{p4}} \right)  , and  \tau_{p} = p5 +  \left(\frac{P6-P5}{1+(\frac{N_{a}}{p7}) ^{p8}} \right) 
13:  \tau_{n,0} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}}{p3}) ^{p4}} \right) ,  \tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6}  , and  \tau_{p} = \tau_{n} 
24:  \tau_{n,0} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}}{p3}) ^{p4}} \right) ,  \tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6}  , and 
     \tau_{p,0} = p7 +  \left(\frac{P8-P7}{1+(\frac{N_{d}}{p9}) ^{p10}} \right) ,  \tau_{p} = \tau_{p,0} \times (\frac{T}{p11}) ^{p12} .

If the lifetime is for activated dopant then

31:  \tau_{n} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right)  , and  \tau_{p} = \tau_{n} 
41:  \tau_{n} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right)  , and  \tau_{p} = p5 +  \left(\frac{P6-P5}{1+(\frac{N_{a}^{-1}}{p7}) ^{p8}} \right) 
131:  \tau_{n,0} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) ,  \tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6}  , and  \tau_{p} = \tau_{n} 
241:  \tau_{n,0} = p1 +  \left(\frac{P2-P1}{1+(\frac{N_{d}^{+}}{p3}) ^{p4}} \right) ,  \tau_{n} = \tau_{n,0} \times (\frac{T}{p5}) ^{p6}  , and 
     \tau_{p,0} = p7 +  \left(\frac{P8-P7}{1+(\frac{N_{a}^{-}}{p9}) ^{p10}} \right) ,  \tau_{p} = \tau_{p,0} \times (\frac{T}{p11}) ^{p12} .