"$negfintervalleyopticalphonon" 修訂間的差異

於 2018年7月30日 (一) 09:28 的最新修訂

If you use the command $negfifscattering and the second term is 2, then use the command $negfintervalleyopticalphonon to setup the related parameters of intervalley optical phonon scattering(the g-type and f-type) of Si.
The equation of nonpolar optical phonon scattering(deformation potential scattering):

 $W_{op}^{ab}(k)=\frac{\pi D_{op}^{2}}{\rho\omega_{0}}[n(\omega_{0})]I_{if}N_{1D}(E_{k}+\hbar\omega_{0})$ 

 $W_{op}^{em}(k)=\frac{\pi D_{op}^{2}}{\rho\omega_{0}}[n(\omega_{0})+1]I_{if}N_{1D}(E_{k}-\hbar\omega_{0})$

$negfintervalleyopticalphonon
 $\rho$    $\epsilon_{\infty}$    $\epsilon_{s}$ 
 $D_{op}$   $\omega_{0}$ 
 $D_{op2}$   $\omega_{02}$

Example:

$negfintervalleyopticalphonon
2329.0 0.0 11.7
1.760e-8 9.4476e13
3.328e-9 8.9905e13

related commands:

 $ifsolvenegf,  $negfifscattering

@@ 行 3： / 行 3： @@
  <math>W_{op}^{ab}(k)=\frac{\pi D_{op}^{2}}{\rho\omega_{0}}[n(\omega_{0})]I_{if}N_{1D}(E_{k}+\hbar\omega_{0})</math><br>
  <math>W_{op}^{em}(k)=\frac{\pi D_{op}^{2}}{\rho\omega_{0}}[n(\omega_{0})+1]I_{if}N_{1D}(E_{k}-\hbar\omega_{0})</math><br>
-Example:
  $negfintervalleyopticalphonon
  <math>\rho</math>  <math>\epsilon_{\infty}</math>  <math>\epsilon_{s}</math>
@@ 行 9： / 行 9： @@
  <math>D_{op2}</math> <math>\omega_{02}</math><br>
+Example:
  $negfintervalleyopticalphonon
 .0 0.0 11.7
 .760e-8 9.4476e13
 .328e-9 8.9905e13
- # rho epsilon_inf epsilon_s
- # D0 w0
+related commands:
- # D02 w02
+  [[$ifsolvenegf]],  [[$negfifscattering]]

"$negfintervalleyopticalphonon" 修訂間的差異

於 2018年7月30日 (一) 09:28 的最新修訂

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