檢視 *-cb.res 的原始碼

Output file about band structure, carrier distribution and recombination.

'''<big><big>Format</big></big>'''

<math>Position</math>　<math>E_{c}</math>　<math>E_{v}</math>　<math>E_{fn}</math>　<math>E_{fp}</math>　<math>n</math>　<math>p</math>　<math>J_{n}</math>　<math>J_{p}</math>　<math>R_{rad}</math>　<math>R_{non}</math>　<math>R_{auger}</math>　<math>E_{b}</math>　<math>E_{bh}</math>　<math>G_{gen}</math>　<math>{N_{d}}^+</math>　<math>{N_{a}}^{-}</math>　<math>R_{impact}</math>  <math> 1/u_{c}</math>  <math> 1/u_{hh}</math>  <math> 1/u_{lh}</math>  <math> \vec{E}</math>  <math> \mu_{n}</math>  <math> \mu_{p} </math>  <math> u_{c}</math>  <math> u_{lh}</math>  <math> u_{hh}</math>  <math> N_{trap,effective}</math>  <math> R_{stim}</math>  <math> layer_num</math>  <math> 1/u_{c2}</math>  <math> u_{lh}</math>  <math> n_{1st}</math>  <math> n_{2nd}</math>  <math> p_{1st/hh}</math>  <math> p_{2nd/lh}</math>  <math> Rad_{1st/hh}</math>  <math> Rad_{2nd/lh}</math>  <math> Ec_{1st, modified}</math>  <math> Ec_{2nd, modified}</math>  <math> Ev_{hh/1st, modified}</math>  <math> Ev_{lh/2nd, modified}</math>


<big><big>'''Parameter Explanation'''</big></big>


*<math>Position</math> : Applied Voltage. <math>(cm)</math>

*<math>E_{c}</math> : Energy of conduction band. <math>(eV)</math>

*<math>E_{v}</math> : Energy of valance band. <math>(eV)</math>

*<math>E_{fn}</math> : Fermi lever of electron. <math>(eV)</math>

*<math>E_{fp}</math> : Fermi lever of electron. <math>(eV)</math>

*<math>n</math> : Carrier density of electron. <math>(cm^{-3})</math>

*<math>p</math> : Carrier density of hole. <math>(cm^{-3})</math>

*<math>J_{n}</math> : Current density of electron.<math>(Acm^{-2})</math>

*<math>J_{p}</math> : Current density of hole.<math>(Acm^{-2})</math>

*<math>R_{rad}</math> : Radiative recombination rate.<math>(cm^{-3}s^{-1})</math>

*<math>R_{non}</math> : Non-radiative recombination rate.<math>(cm^{-3}s^{-1})</math>

*<math>R_{auger}</math> : Auger recombination rate.<math>(cm^{-3}s^{-1})</math>

*<math>E_{b}</math> : Work with Schrodinger solver, shows the highest position of confined eigen state.<math>(eV)</math>

*<math>E_{bh}</math> : work with Schrodinger solver, shows the lowest position of confined eigen state.<math>(eV)</math>

*<math>G_{gen}</math> : Generation.<math>(cm^{-3}s^{-1})</math>

*<math>{N_{d}}^+</math> : Activated donor dopant.<math>(cm^{-3})</math>

*<math>{N_{a}}^{-}</math> : Activated accept dopant.<math>(cm^{-3})</math>

*<math>R_{impact}</math> : Impact ionization rate.<math>(cm^{-3}s^{-1})</math>

 <math> 1/u_{c}</math>  : effective electron quantum potential
 <math> 1/u_{c2}</math>  : effective electron quantum potential of the 2nd valley
 <math> 1/u_{hh}</math> : effective heavy hole quantum potential
 <math> 1/u_{lh}</math> : effective light hole quantum potential
 <math> \vec{E}</math>  : electrical field
 <math> \mu_{n}</math> : electron mobility
 <math> \mu_{p} </math> : hole mobility
 <math> u_{c}</math> : u of electron solved by localized landscape theory
 <math> u_{c2}</math> : u of electron solved by localized landscape theory
 <math> u_{lh}</math> : u of heavy hole solved by localized landscape theory
 <math> u_{hh}</math> : u of light hole solved by localized landscape theory
 <math> N_{trap,effective}</math>: net trapped charges
 <math> R_{stim}</math> :Stimulate emission rate <math>1/cm^{3}/s</math>
 <math> layer_num</math>: layer number
 <math> n_{1st}</math>  :  electron density of the 1st band
 <math> n_{2nd}</math>  :  electron density of the 2nd band 
 <math> p_{1st/hh}</math>  :  hole density of the 1st band or HH hole band if the user defines it is HH
 <math> p_{2nd/lh}</math>  :  hole density of the 2nd band or LH hole band if the user defines it is LH
 <math> Rad_{1st/hh}</math>  :  radiative recombination of the 1st band or HH hole band if the user defines it is HH
 <math> Rad_{2nd/lh}</math>  :  radiative recombination of the 2nd band or LH hole band if the user defines it is LH
 <math> Ec_{1st, modified}</math> :  <math> Ec +  \Delta Ec_{1st}</math>
 <math> Ec_{2nd, modified}</math> :  <math> Ec +  \Delta Ec_{2nd}</math>
 <math> Ev_{hh/1st, modified}</math> :  <math> Ev +  \Delta Ev_{hh}</math>
 <math> Ev_{lh/2nd, modified}</math> :  <math> Ev +  \Delta Ev_{lh}</math>