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Steady-state currents in p-n junction filaments or grains in case of large surface recombination velocities at lateral surfaces (1985)

Lindholm, F. A. ; Von Roos, O.

In: Other Sources

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Publication Date: 2011-08-19

Description: Recently it has been pointed out that the saturation current of a semiconductor filament which constitutes part of a p-n junction diverges when the surface recombination velocity at the faces become infinitely large. Here it is pointed out that this is to be expected on physical grounds since, whenever the carrier concentration is kept off equilibrium by an outside agent, and at the same time recombination lifetimes in the bulk or in surface layers tend to zero, concentration gradients tend to infinity. As also previously noted, the situation can be remedied by using realistic (finite) surface recombination velocities in model calculations. However, this procedure leads to mathematical complexities which have been circumvented recently by the introduction of a heuristic approach. It is the aim of this paper to assess the validity of the heuristic approach by means of detailed and exact calculations.

Keywords: SOLID-STATE PHYSICS

Type: Journal of Applied Physics (ISSN 0021-8979); 57; 415-417

Format: text

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Carrier generation, recombination, trapping, and transport in semiconductors with position-dependent composition (1977)

Sah, C.-T. ; Lindholm, F. A.

In: Other Sources

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Publication Date: 2011-08-17

Description: The spatial variation of the chemical composition of a semiconductor modifies the ideal one-electron energy band model as well as the Shockley equations for carrier recombination and transport in two important ways. The random component of the spatial variation introduces localized states in the energy gap by perturbing the band states. The nonrandom component gives rise to the position dependences of the conduction and valence band edges or the electron affinity and the energy gap. This paper gives the modifications of the Shockley equations from these two effects as well as an example of the steady-state recombination rate from distributed gap states in junction solar cells

Keywords: SOLID-STATE PHYSICS

Type: IEEE Transactions on Electron Devices; ED-24; Apr. 197

Format: text

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3

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Auger recombination in heavily doped shallow-emitter silicon p-n-junction solar cells, diodes, and transistors (1979)

Fossum, J. G. ; Lindholm, F. A. ; Shibib, M. A.

In: Other Sources

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Publication Date: 2011-08-17

Description: A rigorous analytic evaluation of an emitter model that includes Auger recombination but excludes bandgap narrowing is presented. It is shown that such a model cannot explain the experimentally observed values of the open-circuit voltage in p-n-junction silicon solar cells. Thus physical mechanisms in addition to Auger recombination are responsible for the experimentally observed values of the open-circuit voltage in silicon solar cells and the common-emitter current gain in bipolar transistors.

Keywords: SOLID-STATE PHYSICS

Type: IEEE Transactions on Electron Devices; ED-26; July 197

Format: text

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Trap controlled minority-carrier mobility in heavily doped silicon (1985)

Neugroschel, A. ; Sah, C. T. ; Lindholm, F. A.

In: Other Sources

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Publication Date: 2019-07-12

Description: The activation behavior of the minority-carrier mobility and diffusivity in heavily doped (about 10 to the 20th per cu cm) Si(Si:As) was investigated in the temperature range, 20 - 350 K. Experimental results indicate that hole transitions between the valence band and localized shallow states give rise to the observed behavior. The activation energy is about 10 meV, which suggests that the localized states originate from band tails but does not rule out trapping at boron atoms in the compensated n(+) region.

Keywords: SOLID-STATE PHYSICS

Type: Solar Cells (ISSN 0379-6787); 14; 211-217

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