$usemunpfunc

Function for organic material. We usually assume the carrier mobility is depend on electrical field and follow Poole-Frenkel field dependent mobility equation.

Mobility follow this equation

$\mu=\mu_0 exp(\beta\sqrt{E})$

Where　

$\mu_0$ is the zero-field mobility
$\beta$ is the factor of mobility increasing
$E$ is the electric field.

Format

$usemunpfunc
1 μe βe μh βh

Parameter Explanation

 $\mu_n=\mu_0 exp(\beta\sqrt{E})$ ,   $\mu_p=\mu_0 exp(\beta\sqrt{E})$

μe : electron zero-field mobility. $(cm^{2}eV^{-1}s^{-1})$
βe : electron beta. $(eV^{-1/2})$
μh : hole zero-field mobility. $(cm^{2}eV^{-1}s^{-1})$
βh : hole beta. $(eV^{-1/2})$

$usemunpfunc
11 μe βe μh βh 解析失敗 (不明函數 "\v"): \v_{n,sat}
 解析失敗 (不明函數 "\v"): \v_{p,sat}

Parameter Explanation

μe : electron zero-field mobility. $(cm^{2}eV^{-1}s^{-1})$
βe : electron beta. $(eV^{-1/2})$
μh : hole zero-field mobility. $(cm^{2}eV^{-1}s^{-1})$
βh : hole beta. $(eV^{-1/2})$
$v_{n,sat}$ saturate electron velocity (cm/s)
$v_{p,sat}$ saturate hole velocity (cm/s)

  $\mu_{n,temp}=\mu_0 exp(\beta\sqrt{E})$ ,   $\mu_{p,temp}=\mu_0 exp(\beta\sqrt{E})$

 If 解析失敗 (不明函數 "\v"):  \mu_{n,temp} \times E > v_{n,sat}, then {\mu_n} = \frac{1\v_{n,sat}}{E} 

 If 解析失敗 (不明函數 "\v"):  \mu_{n,temp} \times E > v_{n,sat}, then {\mu_n} = \frac{1\v_{n,sat}}{E}

$usemunpfunc

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