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osc_demo_constcoef_low_intensity


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 -- Function File: osc_demo_daspk_low_intensity ()
     demo for the OSC simulator.  Model and parameters are those of Fig.
     4 in the paper: "I.Hwang and N.Greenham.  Modeling photocurrent
     transients in organic solar cells.  Nanotechnology, 19:424012
     (8pp), 2008".


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demo for the OSC simulator.



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osc_demo_daspk_exp_absorption


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 -- Function File: osc_demo_daspk_exp_absorption ()
     demo for the OSC simulator.

     The device is a 1um long vertical BHJ, the light absorption
     coefficient is 1/1e-7 m.

     The other model and parameters are those of Fig.  6(a) in the
     paper: "I.Hwang and N.Greenham.  Modeling photocurrent transients
     in organic solar cells.  Nanotechnology, 19:424012 (8pp), 2008".


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demo for the OSC simulator.



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osc_demo_daspk_high_intensity


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# type: sq_string
# elements: 1
# length: 282
 -- Function File: osc_demo_daspk_high_intensity ()
     demo for the OSC simulator.  Model and parameters are those of Fig.
     6(a) in the paper: "I.Hwang and N.Greenham.  Modeling photocurrent
     transients in organic solar cells.  Nanotechnology, 19:424012
     (8pp), 2008".


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 27
demo for the OSC simulator.



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# elements: 1
# length: 28
osc_demo_daspk_low_intensity


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 278
 -- Function File: osc_demo_daspk_low_intensity ()
     demo for the OSC simulator.  Model and parameters are those of Fig.
     4 in the paper: "I.Hwang and N.Greenham.  Modeling photocurrent
     transients in organic solar cells.  Nanotechnology, 19:424012
     (8pp), 2008".


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 27
demo for the OSC simulator.



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# type: sq_string
# elements: 1
# length: 30
osc_demo_fsolve_exp_absorption


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# type: sq_string
# elements: 1
# length: 389
 -- Function File: osc_demo_daspk_exp_absorption ()
     demo for the OSC simulator.

     The device is a 1um long vertical BHJ, the light absorption
     coefficient is 1/1e-7 m.

     The other model and parameters are those of Fig.  6(a) in the
     paper: "I.Hwang and N.Greenham.  Modeling photocurrent transients
     in organic solar cells.  Nanotechnology, 19:424012 (8pp), 2008".


# name: <cell-element>
# type: sq_string
# elements: 1
# length: 27
demo for the OSC simulator.



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# type: sq_string
# elements: 1
# length: 30
osc_demo_ode15i_exp_absorption


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# type: sq_string
# elements: 1
# length: 390
 -- Function File: osc_demo_ode15i_exp_absorption ()
     demo for the OSC simulator.

     The device is a 1um long vertical BHJ, the light absorption
     coefficient is 1/1e-7 m.

     The other model and parameters are those of Fig.  6(a) in the
     paper: "I.Hwang and N.Greenham.  Modeling photocurrent transients
     in organic solar cells.  Nanotechnology, 19:424012 (8pp), 2008".


# name: <cell-element>
# type: sq_string
# elements: 1
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demo for the OSC simulator.



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osc_material_properties


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 -- Function File: INPUT_DATA = osc_material_properties (INPUT_DATA, [
          PROPERTY, VALUE, ...] )
     Set device material properties.

     Available properties:
        − ‘"electron mobility model"’
        − ‘"hole mobility model"’
        − ‘"recombination rate model"’
        − ‘"pair dissociation model"’
        − ‘"generation efficiency"’
        − ‘"contact injection model"’
        − ‘"light induced pair generation"’
        − ‘"relative permittivity"’


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Set device material properties.



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osc_simulation_conditions


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 -- Function File: DATA = osc_simulation_conditions (DATA, [ PROPERTY,
          VALUE, ...] )
     Set input data properties related to the Finite Element
     discretization.

     Available properties:
        − ‘"temperature"’
        − ‘"applied voltage"’


# name: <cell-element>
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Set input data properties related to the Finite Element discretization.





