numerical simulation of semiconductor …algaas algaas qwqw qw=gaas/al(0.33)ga(0.67)as (t=76a) 26...
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![Page 1: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/1.jpg)
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Recent Examples ofRecent Examples of
Numerical Simulation of Semiconductor Optoelectronic
Devices (NUSOD!)
Numerical Simulation of Semiconductor Optoelectronic
Devices (NUSOD!)By Simon Li
![Page 2: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/2.jpg)
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AcknowledgementAcknowledgementAcknowledgement
Credit goes to all research scientists / engineers in Crosslight.Especially, Drs. Peter Mensz, Kentaro Uehara, Oleksiy Shmatov, Zhisheng Piao, Zhiqiang Li, …Thanks go to all customers who contributed material parameters and proposed interesting device structures.
Credit goes to all research scientists / engineers in Crosslight.Especially, Drs. Peter Mensz, Kentaro Uehara, Oleksiy Shmatov, Zhisheng Piao, Zhiqiang Li, …Thanks go to all customers who contributed material parameters and proposed interesting device structures.
![Page 3: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/3.jpg)
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ContentsContentsContents
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
![Page 4: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/4.jpg)
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3-section DBR laser33--section DBR lasersection DBR laser
Physical model required:
•Current injection (drift-diffusion model) for allsegments.
•MQW gain model in segment 1.•Index change model in
segment 2 & 3.•DBR grating model in segment3 (coupled mode theory).•Lateral optical mode solver for
all segments.•Longitudinal mode model
(Green’s function theory)for all segments.
![Page 5: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/5.jpg)
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Round trip gain (RTG)Round trip gain (RTG)Round trip gain (RTG)
RTG left RTG right
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Carrier conc. distributionCarrier conc. distributionCarrier conc. distribution
•Drift-diffusion equation solver finds 3D distribution of electron/hole carrier concentrations.
•Carrier conc. change Refractive index distributionchange in lateral/longitudinal modes
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Carrier conc. around MQWCarrier conc. around MQWCarrier conc. around MQW
•Quantum drift-diffusion model finds 3D distribution of electron/hole at MQW regions.
•Optical gain peak of the MQW and DBR spectrum determines lasing wavelength.
![Page 8: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/8.jpg)
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Longitudinal mode distributionLongitudinal mode distributionLongitudinal mode distribution
Modeling/Design Issues:
•Segments 2 & 3 shouldbe close to but below bandgapto avoid optical loss but alsoto provide change of index.
•Both waveguide and DBRgrating should vary withinjection current.
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Tuning behaviorTuning behaviorTuning behaviorConclusion Possible to integrate many
modules to describe complex laser behaviorin 3D spatial and spectral dimensions.
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ContentsContentsContents
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
![Page 11: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/11.jpg)
11Broad-area laser with adjustable stripe
BroadBroad--area laser with area laser with adjustable stripeadjustable stripe
GRIN-SQW
Adjustable twin-stripe for lateral mode control
Symmetric axis
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Pumping of different modesPumping of different modesPumping of different modesInjection current magnitude (current spreading)
Lateral mode No. 2Lateral mode No. 1
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Multi-mode considerationsMultiMulti--mode considerationsmode considerations
Different longitudinal modesFor lateral mode No. 1
Different lateral modesFor longitudinal No. 1
•Must solve a whole different set of longitudinal modes using modalindices of different lateral modes.
•Each longitudinal mode is always associated with a particular lateral mode.
•Must consider longitudinal and lateral spatial hole burning effectsfor different lateral/longitudinal modes.
![Page 14: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/14.jpg)
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Multi-lateral mode spectrumMultiMulti--lateral mode spectrumlateral mode spectrum
•Different peaks for different lateral modes.•May be used to monitor suppression of lateral modes.
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ContentsContentsContents
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
![Page 16: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/16.jpg)
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Symmetric v. asymmetric VCSELSymmetric v. asymmetric VCSELSymmetric v. asymmetric VCSELTop contact
Bottom contact
Top DBR
MQW layers
Reflection symmetryaxis
Bottom DBR
Models required:•Full 3D drift-diffusion model: cylindrical symmetry no longer available.•Lateral mode model with both phi and theta dependence.•MQW gain model as usual.•Transfer matrix model for longitudinal modes as usual.
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Asymmetric VCSEL injectionAsymmetric VCSEL injectionAsymmetric VCSEL injectionCurrent magnitude Contact
Fundamental mode 2nd order mode
QW’s QW’s
QW’s
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Within the quantum wellWithin the quantum wellWithin the quantum well
Contact
Contact
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Different modes Different modes Different modes
Fundamental mode
2nd order mode
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Symmetric VCSEL injectionSymmetric VCSEL injectionSymmetric VCSEL injectionCurrent magnitude
QW’s
QW’s QW’sFundamental mode 2nd order mode
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Different symmetric modesDifferent symmetric modesDifferent symmetric modes
Fundamental mode
2nd order mode
![Page 22: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/22.jpg)
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Mode competition behavorMode competition Mode competition behavorbehavor
Asymmetric VCSEL
Total
Fundamental
2nd order
Symmetric VCSEL
Total
Fundamental
2nd order
Conclusions•a) VCSEL has similar
lateral mode competition behavior as edge laser;
•b) Asymmetric VCSEL mode is necessary to simulate multi-lateralmode behavior.
![Page 23: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/23.jpg)
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ContentsContentsContents
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
Multiple section tunable DFB/DBR laser.Multiple lateral/longitudinal mode simulation.Lateral mode competition in VCSEL.Different k.p theories.
![Page 24: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/24.jpg)
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k.p theories for zinc-blendek.p theories for zinck.p theories for zinc--blendeblende
Subbands from 8x8 k.p theoryFor GaAs/AlGaAs
Motivations:•When conventional parabolic gain
model does not fit experiment, we need to try something else.
•Need to determine whether it is worththe trouble to go to higher order k.ptheories.
![Page 25: Numerical Simulation of Semiconductor …AlGaAs AlGaAs QWQW QW=GaAs/Al(0.33)Ga(0.67)As (t=76A) 26 Spontaneous Spontaneous Spontaneous em. spectrumemem. spectrum QW=GaAs/Al(0.33)Ga(0.67)As](https://reader031.vdocuments.site/reader031/viewer/2022011914/5fc022e721e21211db035254/html5/thumbnails/25.jpg)
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Comparison for GaAs/AlGaAs QWComparison for Comparison for GaAsGaAs//AlGaAs AlGaAs QWQW
QW=GaAs/Al(0.33)Ga(0.67)As (t=76A)
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Spontaneous em. spectrumSpontaneous Spontaneous emem. spectrum. spectrum
QW=GaAs/Al(0.33)Ga(0.67)As (t=76A)
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Light v. currentLight v. currentLight v. current
QW=GaAs/Al(0.33)Ga(0.67)As (t=76A)
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Comparison for InGaAsP QWComparison for Comparison for InGaAsPInGaAsP QWQW
QW=InGa(.47)As/In(.74)Ga(.26)As(.57)P(.43) t=60A
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InGaAsP QW PLInGaAsP InGaAsP QW PLQW PL
QW=InGa(.47)As/In(.74)Ga(.26)As(.57)P(.43) t=60A
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InGaAsP QW L-I curveInGaAsP InGaAsP QW LQW L--I curveI curve
QW=InGa(.47)As/In(.74)Ga(.26)As(.57)P(.43) t=60A
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Conclusions on k.p modelsConclusions on k.p modelsConclusions on k.p models
For wide bandgap system such as GaAs, no need to go to 8x8.For smaller bandgap system such as InGaAsP at 1.55 um, 8x8 may improveaccuracy. 8x8 does not make fundamental difference to PL/gain spectrum shape.JDOS and/or manybody effects morelikely to results in better fit to experiments.
For wide bandgap system such as GaAs, no need to go to 8x8.For smaller bandgap system such as InGaAsP at 1.55 um, 8x8 may improveaccuracy. 8x8 does not make fundamental difference to PL/gain spectrum shape.JDOS and/or manybody effects morelikely to results in better fit to experiments.