Quantum-confined Stark effect

Known as: QCSE, Quantum confined stark effect

The quantum-confined Stark effect (QCSE) describes the effect of an external electric field upon the light absorption spectrum or emission spectrum…

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Papers overview

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2014

Self-screening of the quantum confined Stark effect by the polarization induced bulk charges in the quantum barriers

Zi-hui ZhangWei Liu H. Demir
2014
Corpus ID: 42491340

InGaN/GaN light-emitting diodes (LEDs) grown along the polar orientations significantly suffer from the quantum confined Stark…

2013

Quantum Confined Stark Effect in Au8 and Au25 Nanoclusters

X. WenP. YuYon-Rui TohJau Tang
2013
Corpus ID: 55797963

The quantum confined Stark effect is investigated for the first time in bovine serum albumin (BSA) protected Au8 and Au25…

2012

Quantum-confined stark effect in localized luminescent centers within InGaN/GaN quantum-well based light emitting diodes

S. DeArunasish Layek Arindam Chowdhury
2012
Corpus ID: 121954155

The nature of the polarization-field in disorder induced nanoscale potential fluctuations (radiative traps) within (In,Ga)N based…

Review

2009

Review

2009

Control of Quantum-Confined Stark Effect in InGaN-Based Quantum Wells

J. RyouP. Yoder R. Dupuis
IEEE Journal of Selected Topics in Quantum…
2009
Corpus ID: 36455639

This paper reviews current technological developments in polarization engineering and the control of the quantum-confined Stark…

Highly Cited

2009

Highly Cited

2009

Quantum-confined Stark effect in GaN/AlN quantum dots in nanowires

J. RenardR. SongmuangG. TourbotC. BougerolB. DaudinB. Gayral
2009
Corpus ID: 5017596

Semiconductor nanowires have the potential to outperform two-dimensional structures, for instance for light-emitting applications…

Highly Cited

2008

Highly Cited

2008

8-band k.p modeling of the quantum confined Stark effect in Ge quantum wells on Si substrates

D. Paul
2008
Corpus ID: 59407620

Recent work using compressively strained-Ge quantum wells grown on S 1-y Ge y virtual substrates has demonstrated efficient…

Highly Cited

2008

Highly Cited

2008

Silicon microring resonators with 1.5-μm radius

Qianfan XuD. FattalR. Beausoleil
2008
Corpus ID: 12164005

We demonstrate a junction between a silicon strip waveguide and an ultra-compact silicon microring resonator that minimizes…

Highly Cited

2008

Highly Cited

2008

A Hybrid Silicon–AlGaInAs Phase Modulator

Hui-wen ChenY. KuoJ. Bowers
IEEE Photonics Technology Letters
2008
Corpus ID: 36720557

We demonstrate a carrier depletion phase modulator based on the hybrid silicon evanescent platform. A low temperature and robust…

Highly Cited

1998

Highly Cited

1998

Determination of piezoelectric fields in strained GaInN quantum wells using the quantum-confined Stark effect

T. TakeuchiC. Wetzel N. Yamada
1998
Corpus ID: 123019356

We have identified piezoelectric fields in strained GaInN/GaN quantum well p-i-n structures using the quantum-confined Stark…

1993

Quantum-confined Stark effect modulators at 1.06 mu m on GaAs

C. FanD. ShihM. HansenS. EsenerH. Wieder
IEEE Photonics Technology Letters
1993
Corpus ID: 45062169

Electroabsorption modulation is achieved at or near a wavelength of 1.06 mu m with In/sub x/Al/sub y/Ga/sub 1-x-y/As/In/sub x/Ga…

Quantum-confined Stark effect

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