Quantum Dot Emitters In Planar Photonic Crystal Nanocavities




Mid-infrared Quantum Dot Emitters Utilizing Planar Photonic Crystal Technology

Author :

Publisher :

Page : 26 pages

File Size : 32,22 MB

Release : 2008

Category :

ISBN :

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Book Description

The three-dimensional confinement inherent in InAs self-assembled quantum dots (SAQDs) yields vastly different optical properties compared to one-dimensionally confined quantum well systems. Intersubband transitions in quantum dots can emit light normal to the growth surface, whereas transitions in quantum wells emit only parallel to the surface. This is a key difference that can be exploited to create a variety of quantum dot devices that have no quantum well analog. Two significant problems limit the utilization of the beneficial features of SAQDs as mid-infrared emitters. One is the lack of understanding concerning how to electrically inject carriers into electronic states that allow optical transitions to occur efficiently. Engineering of an injector stage leading into the dot can provide current injection into an upper dot state; however, to increase the likelihood of an optical transition, the lower dot states must be emptied faster than upper states are occupied. The second issue is that SAQDs have significant inhomogeneous broadening due to the random size distribution. While this may not be a problem in the long term, this issue can be circumvented by using planar photonic crystal or plasmonic approaches to provide wavelength selectivity or other useful functionality.



Nano-photonics in III-V Semiconductors for Integrated Quantum Optical Circuits

Author : Nicholas Andrew Wasley

Publisher : Springer Science & Business Media

Page : 139 pages

File Size : 45,99 MB

Release : 2013-09-05

Category : Technology & Engineering

ISBN : 3319015141

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Book Description

This thesis breaks new ground in the physics of photonic circuits for quantum optical applications. The photonic circuits are based either on ridge waveguides or photonic crystals, with embedded quantum dots providing the single qubit, quantum optical emitters. The highlight of the thesis is the first demonstration of a spin-photon interface using an all-waveguide geometry, a vital component of a quantum optical circuit, based on deterministic single photon emission from a single quantum dot. The work makes a further important contribution to the field by demonstrating the effects and limitations that inevitable disorder places on photon propagation in photonic crystal waveguides, a further key component of quantum optical circuits. Overall the thesis offers a number of highly novel contributions to the field; those on chip circuits may prove to be the only means of scaling up the highly promising quantum-dot-based quantum information technology.





Coupling of quantum dots to photonic crystal nanocavities

Author : Laurent Balet

Publisher : Sudwestdeutscher Verlag Fur Hochschulschriften AG

Page : 160 pages

File Size : 40,57 MB

Release : 2009-09

Category :

ISBN : 9783838109602

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Book Description

Recently, the emission of single photons with wavelength in the 1.3um telecommunication window was demonstrated for InAs quantum dots. This makes them strong candidates for applications such as quantum cryptography, and in a longer term, quantum computing. However, efficient extraction of the spontaneous emission from semiconductors still represents a major challenge due to total internal reflection at the semiconductor/air interface. This thesis work explores the integration of quantum dots, with emission at 1.3um, in photonic crystal microcavities. Photons emitted in a mode of the cavity are funneled out of the semiconductor, and thus bypass the total internal reflection. In addition, the modified density of electromagnetic states in the cavity affects the emission lifetime of the weakly coupled emitter: in resonance, we assist to an increase of the emission rate, known as the Purcell effect. Photonic crystal microcavities conveniently address this objective as they provide modes with the required small volumes and high quality factors. They also allow the engineering of the farfield pattern of the cavity modes, and thus of the collection effiency.



Self-Assembled Quantum Dots

Author : Zhiming M Wang

Publisher : Springer Science & Business Media

Page : 470 pages

File Size : 22,53 MB

Release : 2007-11-29

Category : Technology & Engineering

ISBN : 0387741917

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Book Description

This multidisciplinary book provides up-to-date coverage of carrier and spin dynamics and energy transfer and structural interaction among nanostructures. Coverage also includes current device applications such as quantum dot lasers and detectors, as well as future applications to quantum information processing. The book will serve as a reference for anyone working with or planning to work with quantum dots.





Quantum Dot Devices

Author : Zhiming M. Wang

Publisher : Springer Science & Business Media

Page : 375 pages

File Size : 13,12 MB

Release : 2012-05-24

Category : Science

ISBN : 1461435706

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Book Description

Quantum dots as nanomaterials have been extensively investigated in the past several decades from growth to characterization to applications. As the basis of future developments in the field, this book collects a series of state-of-the-art chapters on the current status of quantum dot devices and how these devices take advantage of quantum features. Written by 56 leading experts from 14 countries, the chapters cover numerous quantum dot applications, including lasers, LEDs, detectors, amplifiers, switches, transistors, and solar cells. Quantum Dot Devices is appropriate for researchers of all levels of experience with an interest in epitaxial and/or colloidal quantum dots. It provides the beginner with the necessary overview of this exciting field and those more experienced with a comprehensive reference source.



Quantum Dots for Quantum Information Technologies

Author : Peter Michler

Publisher : Springer

Page : 457 pages

File Size : 15,44 MB

Release : 2017-06-01

Category : Science

ISBN : 3319563785

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Book Description

This book highlights the most recent developments in quantum dot spin physics and the generation of deterministic superior non-classical light states with quantum dots. In particular, it addresses single quantum dot spin manipulation, spin-photon entanglement and the generation of single-photon and entangled photon pair states with nearly ideal properties. The role of semiconductor microcavities, nanophotonic interfaces as well as quantum photonic integrated circuits is emphasized. The latest theoretical and experimental studies of phonon-dressed light matter interaction, single-dot lasing and resonance fluorescence in QD cavity systems are also provided. The book is written by the leading experts in the field.