Photoluminescence Studies of Single Quantum Dots

Panev, Nikolay

Photoluminescence Studies of Single Quantum Dots

Mark

Panev, Nikolay ^LU (2004)

Abstract: This thesis presents photoluminescence (PL) spectroscopy studies of single III-V semiconductor quantum dots (QDs). The electronic properties of the QDs, as well as, the dynamics of the processes taking part inside and in the surroundings of the QDs have been studied by single quantum dot photoluminescence spectroscopy, time resolved spectroscopy, and correlation spectroscopy. A detailed overview of solid immersion spectroscopy, a technique offering superior resolution and collection efficiency over conventional PL spectroscopy, is presented.

Power-dependent PL spectroscopy was used to identify the origin of the spectral lines of In(Ga)As/GaAs Stranski-Krastanow (SK) grown QDs. It was found that holes in excited states... (More); This thesis presents photoluminescence (PL) spectroscopy studies of single III-V semiconductor quantum dots (QDs). The electronic properties of the QDs, as well as, the dynamics of the processes taking part inside and in the surroundings of the QDs have been studied by single quantum dot photoluminescence spectroscopy, time resolved spectroscopy, and correlation spectroscopy. A detailed overview of solid immersion spectroscopy, a technique offering superior resolution and collection efficiency over conventional PL spectroscopy, is presented.

Power-dependent PL spectroscopy was used to identify the origin of the spectral lines of In(Ga)As/GaAs Stranski-Krastanow (SK) grown QDs. It was found that holes in excited states sometimes recombine with electrons in the ground state. A rate equation system was used to model the intensity behavior, showing that the presence of electrons and holes in excited states is also observable when monitoring the PL between electrons and holes in their single-particle ground states.

Correlation spectroscopy measurements on In(Ga)As/GaAs SK grown QDs have shown that the light emission from a single QD is antibunched, and a QD can be used to generate single photons on demand.

Blinking in the PL from In(Ga)As/GaAs SK grown QDs have been observed and investigated. The PL from a single QD, exhibiting switching between two intensity levels, was spectrally resolved. We found no spectral shift of the emission from the different states. It is only the intensity, mainly for higher energy lines, that changes. The switching is attributed to a mobile, metastable defect acting as a nonradiative recombination center, and we show that the switching can be used as a monitor of the defect.

A new type of random telegraph noise have been observed in the PL from small InP/GaInP SK grown QDs. The switching occurs between two states, which have similar total intensities, but distinctly different spectra, that are not simply shifted by an electric field. The QDs can be permanently settled in one of the states by strong illumination. Measurements on QDs in a semitransparent Schottky diode, show that the quantum dots can be reversibly forced into one of the states by applying a sufficiently large reverse bias.

Single GaAs nanowires, grown by means of the vapor-liquid-solid growth mode, with InAs QDs in the form of a segment incorporated into the GaAs, have been studied by PL spectroscopy. Rich spectra, consisting of sharp lines with excitation power dependency behavior very similar to that seen for SK grown QDs were observed. By reducing the excitation power density, a QD spectrum was obtained, consisting of only one single sharp line - the exciton line. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/467366

author

Panev, Nikolay ^LU

supervisor

[unknown] [unknown]

opponent

Dr Langbein, Wolfgang, Experimentelle Physik EIIb, Universität Dortmund , Otto-Hahn-Str. 4, 44221 Dortmund, Germany

organization

Solid State Physics

publishing date

2004

type

Thesis

publication status

published

subject

Condensed Matter Physics

keywords

Stranski-Krastanow, photoluminescence, laser spectroscopy, antibunching, random telegraph noise, blinking, Physics, Fysik, Fysicumarkivet A:2004:Panev, solid immersion lens, quantum dots, low-dimensional structures

pages

108 pages

defense location

Fysiska institutionen, Sölvegatan 14, Hörsal B, Lunds Tekniska Högskola.

defense date

2004-10-08 10:15:00

ISBN

91-628-6174-3

language

English

LU publication?

yes

additional info

Article: IRelaxation pathways in InAs/GaAs quantum dotsM. Persson, N. Panev, L. Landin, S. Jeppesen, and M.-E. PistolPhys. Rev. B 64, 075309 (2001) Article: IISingle quantum dots emit single photons at a time: Antibunching experimentsV. Zwiller, H. Blom, P. Jonsson, N. Panev, S. Jeppesen, T. Tsegaye, E. Goobar, M.-E. Pistol, L. Samuelson, and G. BjörkAppl. Phys. Lett. 78, 2476 (2001) Article: IIISharp exciton emission from single InAs quantum dots in GaAs nanowiresN. Panev, A. I. Persson, N. Sköld, and L. SamuelsonAppl. Phys. Lett. 83, 2238 (2003) Article: IVRandom telegraph noise in the photoluminescence of individual GaInAs quantum dots in GaAsN. Panev, M.-E. Pistol, V. Zwiller, L. Samuelson, W. Jiang, B Xu, and Z. WangPhys. Rev. B 64, 045317 (2001) Article: VSpectroscopic studies of random telegraph noise in InAs quantum dots in GaAsN. Panev, M.-E. Pistol, S. Jeppesen, V.P. Evtikhiev, A.A. Katznelson, and E.Yu. KotelnikovJ. Appl. Phys. 92, 7086 (2002) Article: VISpectroscopic studies of random telegraph noise in small InP quantum dots in GaInPN. Panev, M.-E. Pistol, J. Persson, W. Seifert, and L. SamuelsonPhys. Rev. B 70, 073309 (2004)

id

2293e81d-1b19-4579-afba-2376b8d8fe62 (old id 467366)

date added to LUP

2016-04-04 13:15:40

date last changed

2018-11-21 21:12:55

@phdthesis{2293e81d-1b19-4579-afba-2376b8d8fe62,
  abstract     = {{This thesis presents photoluminescence (PL) spectroscopy studies of single III-V semiconductor quantum dots (QDs). The electronic properties of the QDs, as well as, the dynamics of the processes taking part inside and in the surroundings of the QDs have been studied by single quantum dot photoluminescence spectroscopy, time resolved spectroscopy, and correlation spectroscopy. A detailed overview of solid immersion spectroscopy, a technique offering superior resolution and collection efficiency over conventional PL spectroscopy, is presented.<br/><br>
<br/><br>
Power-dependent PL spectroscopy was used to identify the origin of the spectral lines of In(Ga)As/GaAs Stranski-Krastanow (SK) grown QDs. It was found that holes in excited states sometimes recombine with electrons in the ground state. A rate equation system was used to model the intensity behavior, showing that the presence of electrons and holes in excited states is also observable when monitoring the PL between electrons and holes in their single-particle ground states.<br/><br>
<br/><br>
Correlation spectroscopy measurements on In(Ga)As/GaAs SK grown QDs have shown that the light emission from a single QD is antibunched, and a QD can be used to generate single photons on demand.<br/><br>
<br/><br>
Blinking in the PL from In(Ga)As/GaAs SK grown QDs have been observed and investigated. The PL from a single QD, exhibiting switching between two intensity levels, was spectrally resolved. We found no spectral shift of the emission from the different states. It is only the intensity, mainly for higher energy lines, that changes. The switching is attributed to a mobile, metastable defect acting as a nonradiative recombination center, and we show that the switching can be used as a monitor of the defect.<br/><br>
<br/><br>
A new type of random telegraph noise have been observed in the PL from small InP/GaInP SK grown QDs. The switching occurs between two states, which have similar total intensities, but distinctly different spectra, that are not simply shifted by an electric field. The QDs can be permanently settled in one of the states by strong illumination. Measurements on QDs in a semitransparent Schottky diode, show that the quantum dots can be reversibly forced into one of the states by applying a sufficiently large reverse bias.<br/><br>
<br/><br>
Single GaAs nanowires, grown by means of the vapor-liquid-solid growth mode, with InAs QDs in the form of a segment incorporated into the GaAs, have been studied by PL spectroscopy. Rich spectra, consisting of sharp lines with excitation power dependency behavior very similar to that seen for SK grown QDs were observed. By reducing the excitation power density, a QD spectrum was obtained, consisting of only one single sharp line - the exciton line.}},
  author       = {{Panev, Nikolay}},
  isbn         = {{91-628-6174-3}},
  keywords     = {{Stranski-Krastanow; photoluminescence; laser spectroscopy; antibunching; random telegraph noise; blinking; Physics; Fysik; Fysicumarkivet A:2004:Panev; solid immersion lens; quantum dots; low-dimensional structures}},
  language     = {{eng}},
  school       = {{Lund University}},
  title        = {{Photoluminescence Studies of Single Quantum Dots}},
  year         = {{2004}},
}

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Photoluminescence Studies of Single Quantum Dots