introduction to semiconductor technology. outline –4 excitation of semiconductors optical...
TRANSCRIPT
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Introduction to semiconductor technology
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Outline
– 4 Excitation of semiconductors• Optical absorption and excitation• Luminescence• Recombination• Diffusion of charge carriers
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Optical absorption and excitation
hv > Eg for the generation of an ehp, the energy in excess of Eg turns into kinetic energy. For photon energies of the order of the Eg, an ehp is generated. When the photon energy increases the electron gets kinetic energy which results in impact ionization which result in more than an ehp is generated/photon. When the electron is relaxed in the conduction it can recombine back into the valence band (c).
Ek
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Optical absorption and excitation
For photon energies below the band gap Semiconductor is transparent. Measurement of optical absorption is a way to determine the band gap.
hv<Eg
α is then the absorption coefficient
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Optical absorption and excitation
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Luminescence
•Fotoluminiscens (fast emission)
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Luminescence
•Phosphorus luminescence (delayed process via a trap in the band gap)•Electro-luminscens injection of minority carriers, require a p-n junction, LED
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Direct recombination (direct bandgap as GaAs)
Thermal Generation
recombination
Generation of ehp with a short light pulse
po and no are the concentrations at equilibrium
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Direct recombination (direct bandgap as GaAs)
P-type material has p0 > > n0 and
the equation then becomes
With the solution
Is called the minority carrier lifetime
When n0 > > p0
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Direct recombination (direct bandgap as GaAs)
P-type doping material with 1015 cm-3 GaAs with ni = 106 cm-3 results in n0 = 10-3 cm-3!!
Vid t=0 genereras 1014 ehp/cm3
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Indirect Recombination (indirect band gap)
Direct recombination is unlikely process in indirect semiconductors such as Si and Ge.
Instead occurs recombination (holes and electrons annihilated) by recombination level (an impurity level) in the band gap.
An impurity level that takes up an electron temporarily and then emit electron again without recombination is called "trap" level
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Indirect Recombination (indirect band gap)
Semiconductor excited with light pulse and the conductivity measured as fkn time for determination of the effective recombination
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Generation in equilibrium and in constant excess of charge carriers
in equilibrium
with constant excess of charge carriers, as optical excitation (photo generation)
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Quasi Fermi levels
Quasi Fermi levels are used as the semiconductor is not in equilibrium.
Quasi Fermi levels describes the electron and hole concentrations, such as photo generation and injection of minority carriers (PN junction)
0 is gone when concentration is not in equilibrium, mass action law is not valid
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Diffusion of charge carriers
A light pulse creates a concentration gradient of ehp.
The driving force is that the charge carriers moving in the direction of lower concentration to even out the differences, which is called diffusion
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Diffusion of charge carriers
The flow of electrons
Diffusion coefficient
Diffusion current density
x
Concentration (holes, electrons) Movement direction caused by the gradient
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Diffusion and drift of the charge carriers
Total current density
Drift and diffusion components, for electron and hole current density
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Diffusion and drift of the charge carriers
Doping profile with phosphorus, the net charge is 0
We have a doping gradient, the electrons would diffuse to even out the gradient
But the electrons leaves fixed positive ions in the lattice that results in an electric field, which balances the diffusion
x
++++++
*+*
***
Ex
=0 dx
xdn
xn
DxE
n
n )(
)()(
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Diffusion and drift of the charge carriers
dx
xdn
xn
DxE
n
n )(
)()(
dxdE
dxdE
kT
DxE Fi
p
p 1)(
V(x) Potential energy per unit charge
At equilibrium applies
dxxdp
xp
DxE
p
p )()(
)(
Einstein's relation
0dx
dEF
qEdxdEi
=+
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Diffusion and Recombination, the continuity equation
Partial differential equation
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Diffusion and Recombination, Diffusion equation
Without drift "negligible electric field"
At steady state "the time derivative = 0"
Diffusion length of electrons
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Diffusion and Recombination, Diffusion equation
pLxpexp /)(
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Haynes-Shockley ExperimentAllows measurement of minority carrier mobility and diffusion coefficient
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Haynes-Shockley Experiment
Partial differential equation with the solution
P is the number of holes/area
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Haynes-Shockley Experiment
∆ x/2 means that Gauss distribution has fallen to e-1
t, td and L is measured
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Haynes-Shockley Experiment