"$negfpolaropticalphonon" 修訂間的差異

出自 DDCC TCAD TOOL Manual
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If you use the command $negfifscattering and the second term is 1, then use the command $negfpolaropticalphonon to setup the related parameters of polar optical phonon scattering of GaAs. You can also use this function and set the parameter with our GUI version at the place of "Scattering Parameters" in GUI<br>
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If you use the command $negfifscattering and the second term is 1, then use the command $negfpolaropticalphonon to setup the related parameters of polar optical phonon scattering of GaAs. You can also use this function and set the parameter with our GUI version at the input box of "Scattering Parameters" in GUI<br>
 
The equation of polar optical phonon scattering:
 
The equation of polar optical phonon scattering:
 
<math>W_{pop}^{ab}(k)=\frac{|C|^2V}{4\pi^2\hbar^2}[n(\omega_{0})]N_{1D}(E_{k}+\hbar\omega_{0})</math><br>
 
<math>W_{pop}^{ab}(k)=\frac{|C|^2V}{4\pi^2\hbar^2}[n(\omega_{0})]N_{1D}(E_{k}+\hbar\omega_{0})</math><br>

於 2019年6月18日 (二) 01:11 的最新修訂

If you use the command $negfifscattering and the second term is 1, then use the command $negfpolaropticalphonon to setup the related parameters of polar optical phonon scattering of GaAs. You can also use this function and set the parameter with our GUI version at the input box of "Scattering Parameters" in GUI
The equation of polar optical phonon scattering:

W_{pop}^{ab}(k)=\frac{|C|^2V}{4\pi^2\hbar^2}[n(\omega_{0})]N_{1D}(E_{k}+\hbar\omega_{0})
W_{pop}^{em}(k)=\frac{|C|^2V}{4\pi^2\hbar^2}[n(\omega_{0}+1)]N_{1D}(E_{k}-\hbar\omega_{0})
C=i\sqrt{\frac{e^{2}\hbar\omega_{0}}{2\epsilon_{0}V}(\frac{1}{\epsilon_{\infty}}-\frac{1}{\epsilon_{s}})}
$negfpolaropticalphonon
\rho  \epsilon_{\infty}  \epsilon_{s}
D_{op} \omega_{0}

Example:

$negfpolaropticalphonon
5320.0 10.92 13.2
1.60e-8 5.18e13

related commands:

 $ifsolvenegf,  $negfifscattering