$callexciton
出自 DDCC TCAD TOOL Manual
Function for calculate the exciton distribution. We usually use this equation for organic material. Behavior of exciton will follow this equation. You can see the detail in Subroutine_exciton1D.
Where
- is diffusion coefficient.
- is relaxation time of exciton.
- is annihilation rate constant.
- is exciton generation rate.
Format
$callexciton n a 4 b c d f d kr knr gamma g
Parameter Explanation
- n : the number of tables we usually set n as 5.
- a : The type of exciton solver mode
1: Time-dependent triplet solver 123: Time-dependent triplet and singlet solver (For TADF OLEDs model) 3: Triplet Exciton Solver (For PhOLEDs model) 6: Singlet and Triplet Exciton Solver (For TADF OLEDs model) 4: Triplet Exciton Solver with exciton blocking boundary
- b : Start time (For time-dependent solver)
- c : dt (For time-dependent solver)
- d : End time (For time-dependent solver)
- e : savenum (For time-dependent solver)
- D : diffusion coefficient.
- kr : radiatvie rate constant
- knr :non-radiative rate constant
- gamma : quenching coefficient.
- 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
static TTA model (mode 7)
Format
$callexciton 7 711 DS DT krS knrS krT knrT kisc krisc keS khS keT khT kST gammaTS gammaTT a DrefS DrefT ES ET
Parameter Explanation