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LED Construction – Aim – 100% light emitting efficiency◘ Important consideration - radiative
recombination must take place from the side of the junction nearest to the surface to reduce reabsorption.
◘ Carrier from n must be injected into the p-side efficiently.
◘ Consider the fraction of the total diode current that is carried by electrons being injected into the p-side of the junction (e)
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Why n+-p?
e = Denp/Le
Denp/Lp + Dhpn/Lh
Or e = DhpnLe
DennLp
e= ennLp
1+ hpnLe
If we use Einstein’s equation to substitute this equation. Then,
III-V compounds, III-V compounds, ee >> >> hh then, ee needs to be needs to be close to unity. This can close to unity. This can be circumvent by doping be circumvent by doping n with more electrons (n n with more electrons (n >> p)>> p)
If (nIf (nnn >> p >> pnn) = one sided ) = one sided junction njunction n++ -p diode -p diode
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Typical exam questionJustify the reason why in a typical construction of an LED, the n side in the p-n diode must be made heavily doped.
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LED Characteristic The energy of an emitted photon = to the size
of the band gap BUT this is a simplified statement. The energy of an emitted photon from LED is
distributed appropriately according to the energy distribution of electrons on the conduction band and holes in the valance band.
You need to know the distribution of electrons and holes in the CB and VB respectively.
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The quantum efficiency• Internal quantum efficiency can of some LED
approaches 100% but the external efficiencies are much lower. This is due to reabsorption and TIR.
• III-V materials have small critical angles therefore the radiation emitted suffers from TIR
%100xIV
)optical(Poutputexternal
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Recap- Total Internal Reflection
Incident beam
TIR
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Why do we need the dome?
n+
Electrodes Electrodes
Pn junction
Plastic dome
Semiconductor material is shaped like a hemisphere
to reduce TIR…
p
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How to solve TIR problem
• GaAs-air interface, the C = 16o which means that much of the light suffers TIR.
• To solve the problem we could:1. Shape the surface of the semiconductor into a dome
or hemisphere so that light rays strike the surface angles < C therefore does not experience TIR. But expensive and not practical to shape p-n junction with dome-like structure.
2. Encapsulation of the semiconductor junction within a dome-shaped transparent plastic medium (an epoxy) that has higher refractive index than air.
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Calculation IV. Calculating C
If we take a GaAs/air interface where ni = 3.6 and n2 = 1, what is the critical angle, C?.
C = sin-1 (n2/n1)
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LED
Stru
ctur
e
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Basic Layer by Layer Structure
LED 1. Surface emitter2. Edge emitter
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1. Surface Emitter
• In surface emitter the emitting area is defined by oxide isolation, with the metal contact area a circle of diameter ~ 10m-15 m.
• The surface layer is kept as thin as possible (10-15 m) to minimise reabsorbtion
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Homo- and Hetro-Junction
• Homojunction = a p-n junction made out of two differently doped semiconductors that are of the same material (i.e having the same band gap).
• Heterojunction = junction formed between two different band gaps semiconductors.
• Heterostructure device = semiconductor device structure that has junctions between different bandgap materials.
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Why Homojunction is bad?
1. Shallow p-region narrow to allow photons to escape without reabsorption.
– If the p-region is too shallow, electrons can escape the p-region by diffusion and recombine through crystal defect in the surface of the layer.
– This recombination is non-radiative and decreases the efficiency of the LED.
2. Thick p–region then reabsoprtion will be the main problem as the photons will have a long way to go before can be successful emitted.
Create a heterojunction instead since heterojunction solves: Reabsoption problem (photon confinement) Also carrier confinement
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Band-gap and refractive index engineering.
Heterostructured LED
Avoiding losses in LED
Carrier confinement
Photon Confinement
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Double heterostructure Burrus type LED Shown bonded to a fiber with index-matching epoxy.
Double Heterojunction LED (important)
n+ GaAs
p Al GaAsp GaAs (active region)
n AlGaAs
Metal contact
Metal contactEpoxy
Fiber Optics
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Double Heterostructure• The double heterostructure is invariably used for
optical sources for communication as seen in the figure in the pervious slide.
• Heterostucture can be used to increase:– Efficiency by carrier confinement (band gap
engineering)– Efficiency by photon confinement (refractive index)
• The double heterostructure enables the source radiation to be much better defined, but further, the optical power generated per unit volume is much greater as well. If the central layer of a double heterostructure, the narrow band-gap region is made no more than 1m wide.
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Photon confinement - Reabsorption problem
Source of electrons
Source of holesActive region (micron in thickness)
Active region (thin layer of GaAs) has smaller band gap, energy of photons emitted is smaller then the band gap of the P and N-GaAlAs hence could not be reabsorbed.
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Reabsorption ProblemIn order to prevent reabsorption, the upper layer (one that is above the active region) needs to have higher band gap therefore the emitted photons will not be absorbed by the upper layer (photons will be absorbed when Ep < Eg).
2eV1.4eV
n-AlGaAs p-GaAs
Active region – Photons will not be absorbed by the n-AlGaAs since the band gap is much higher than GaAs
p-AlGaAs
n+ GaAs
p Al GaAsp GaAs (active region)
n AlGaAs
Metal contact
Metal contactEpoxy
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Carrier confinement
p+-AlGaAsn+-AlGaAs p-GaAsholes
electrons
Simplified band diagram of the ‘sandwich’ top show carrier confinement
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Burrus-Type LED
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Communication LED
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Typical Exam QuestionSketch a typical surface emitted LED that can emit red light. Explain why for such configuration, the light source can be suitable for optical communication. Start your answer with the reasons why photon and carrier confinement are needed.
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2. Edge EmitterIn edge emitter a double heterostructure band gap engineering is used to achieve carrier confinement and recombination in an active layer but in addition layers of relatively low refractive index are included to produce optical guide. A large fraction of the photons are therefore confined between two ‘plates’ of material and emerge at the edge of the device as highly directional flux compatible with coupling to a fibre optic cable.
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Edge emitter using double heterostructure
Active layer n- GaAlAsN GaAlAsN+- GaAlAs
GaAs(n) substrate
Metal contact
Metal contact
P GaAlAsP+ GaAlAs
n- GaAlAsLight emits
from the edge
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The waveguide
We can use refractive index engineering to create a multilayer structure in which light can be trapped within the central layers. This layer act as waveguide. (TIR is used in Edge Emitter)
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Contact Layer
Cladding Layer
Cladding Layer
Active Layer
SubstrateEp
i gro
wth
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Another Example of Edge Emitter