Difference between revisions of "SolarET3034Ux"
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http://www.unitconversion.org/unit_converter/area.html | |||
http://pveducation.org/pvcdrom/properties-of-sunlight/spectral-irradiance | http://pveducation.org/pvcdrom/properties-of-sunlight/spectral-irradiance | ||
====recombination=== | ====recombination==== | ||
:charge cariers lecture 2 | :charge cariers lecture 2 | ||
Radiative recombination takes place when an electron in the conduction band relaxes to the valence band via the emission of a photon. Auger recombination needs an interaction between at least two electrons in the conduction band, so the first electron recombines with a hole and transfers its energy to the second electron. Instead of an interaction between two electrons, Auger recombination can occur through an interaction between two holes in the valence band. The first hole recombines with an electron and transfers its energy to the second hole. | Radiative recombination takes place when an electron in the conduction band relaxes to the valence band via the emission of a photon. Auger recombination needs an interaction between at least two electrons in the conduction band, so the first electron recombines with a hole and transfers its energy to the second electron. Instead of an interaction between two electrons, Auger recombination can occur through an interaction between two holes in the valence band. The first hole recombines with an electron and transfers its energy to the second hole. | ||
====diffusion length==== | |||
The “Diffusion length” is the average length that a carrier moves between generation and recombination. Calculate the minority diffusion length (in μm) of a minority carrier having lifetime 10μs and minority carrier diffusivity of D=25.6cm2/s. | The “Diffusion length” is the average length that a carrier moves between generation and recombination. Calculate the minority diffusion length (in μm) of a minority carrier having lifetime 10μs and minority carrier diffusivity of D=25.6cm2/s. | ||
<math> | <math> L=\sqrt{D*\tau}</math> | ||
Latest revision as of 16:14, 30 September 2013
http://www.unitconversion.org/unit_converter/area.html
http://pveducation.org/pvcdrom/properties-of-sunlight/spectral-irradiance
recombination
- charge cariers lecture 2
Radiative recombination takes place when an electron in the conduction band relaxes to the valence band via the emission of a photon. Auger recombination needs an interaction between at least two electrons in the conduction band, so the first electron recombines with a hole and transfers its energy to the second electron. Instead of an interaction between two electrons, Auger recombination can occur through an interaction between two holes in the valence band. The first hole recombines with an electron and transfers its energy to the second hole.
diffusion length
The “Diffusion length” is the average length that a carrier moves between generation and recombination. Calculate the minority diffusion length (in μm) of a minority carrier having lifetime 10μs and minority carrier diffusivity of D=25.6cm2/s.
<math> L=\sqrt{D*\tau}</math>
