「$callexciton」：修訂間差異

於 2017年8月15日 (二) 19:52 的修訂

Function for calculate the exciton distribution. Exciton will follow this equation

$\frac{d n_{e x}}{d t} = D \nabla^{2} n_{e x} (r) - \frac{n_{e x} (r)}{τ} - γ {n_{e x} (r)}^{2} + G$

Where　

Format

$callexciton
n
d kr knr gamma g

Parameter Explanation

n : the number of tables we usually set n as 5.
d : diffusion coefficient. $(c m^{2}) s^{- 1}$
kr : radiatvie rate constant $(s^{- 1})$
knr :non-radiative rate constant $(s^{- 1})$
gamma : quenching coefficient. $(c m^{2}) s^{- 1}$
g : generation rate if you wanna let whole recombination rate change into exciton you should set g as 1.

Example

$callexciton
5
2e-14 20000 3000 1e-12 1
2e-14 20000 3000 1e-12 1
2e-14 20000 3000 1e-12 1
2e-14 20000 3000 1e-12 1
2e-14 20000 3000 1e-12 1

@@ 第1行： / 第1行： @@
-Function for calculate the exciton distribution.
+Function for calculate the exciton distribution. Exciton will follow this equation
+<math>\frac{dn_{ex}}{dt}=D{\nabla}^2{n_{ex}(r)}-\frac{n_{ex}(r)}{\tau}-\gamma{n_{ex}(r)}^2+G</math>
+Where
+* <math>D</math> is diffusion coefficient.
+* <math>\tau</math> is relaxation time of exciton.
+* <math>\gamma</math> is annihilation rate constant.
+* <math>G</math> is exciton generation rate.
 '''<big><big>Format</big></big>'''<br />