Title :
Analytical theory of semiconductor p-n junctions and the transition between depletion and quasineutral region
Author :
Haggag, Amr ; Hess, Karl
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Univ., Urbana, IL, USA
fDate :
8/1/2000 12:00:00 AM
Abstract :
We show that the standard model of p-n junctions, which considers only insulating and metallic regions, is inadequate in a transition region that is significantly broader than a Debye length. We give analytical estimates of this length, the carrier densities and electric fields that match numerical simulation closely. We consider three regions of the diode as was suggested already by Shockley; the depletion region, the transition region extending to the point of zero electric field, and the base quasineutral region. Our analytical estimate helps to eliminate some paradoxes associated with the appearance of net charge in the quasineutral region and also explains contributions to the capacitive nature of the p-n junction and, for long diodes, the lack, of the usually predicted strong increase of the depletion capacitance in extreme forward bias
Keywords :
capacitance; carrier density; current density; electric fields; p-n junctions; semiconductor device models; semiconductor diodes; Debye length; analytical theory; base quasineutral region; carrier densities; depletion capacitance; depletion region; electric fields; extreme forward bias; model; numerical simulation; semiconductor p-n junctions; symmetric long base diode; transition region; Boundary conditions; Capacitance; Charge carrier density; Electrons; Insulation; Numerical simulation; P-n junctions; Poisson equations; Semiconductor diodes; Space charge;
Journal_Title :
Electron Devices, IEEE Transactions on
