8 edition of Self-assembled quantum dots found in the catalog.
Includes bibliographical references and index.
|Statement||Zhiming M. Wang, editor.|
|Series||Lecture notes in nanoscale science and technology -- 1|
|Contributions||Wang, Zhiming M.|
|LC Classifications||QC611.6.Q35 S455 2008|
|The Physical Object|
|Pagination||xii, 463 p. :|
|Number of Pages||463|
|LC Control Number||2007939826|
Self-assembled CdS quantum dots in carbon nanotubes: induced polysulfide trapping and redox kinetics enhancement for improved lithium–sulfur battery performance† Dong Cai, a Lili Wang, * b La Li, a Yupu Zhang, a Junzhi Li, a Duo Chen, a Haoran Tu d and Wei Han * acCited by: In the past 15 years, self-assembled quantum dots have provided vast opportunities for physical research and technological applications, including quantum cryptography, quantum computing, optics and optoelectronics. The present book is devoted to some of these fascinat-ing aspects, including growth, properties and applications of quantum dots.
-Spin phenomena in self-assembled quantum dots. -Studies of Semiconductor Quantum Dots for Quantum Information Processing. -In(Ga)As/GaAs quantum dots grown by MOCVD for opto-electronic device applications. -Excitons and spins in quantum dots coupled to a continuum of states. -Quantum Coupling in Quantum Dot Molecules. Single self-assembled InAs/GaAs quantum dots are a promising solid-state quantum technology, with vacuum Rabi splitting, single-photon-level nonlinearities, and bright, pure, and indistinguishable single-photon generation having been by:
In this contribution, the recent development of cavity-quantum electrodynamics experiments in all semiconductor microcavities using self-assembled quantum dots as artificial atoms is reviewed. In the weak coupling regime, a strong enhancement of the. Book, Internet Resource: All Authors / Contributors: Y. Sugiyama and M. Sugawara, Molecular Beam Epitaxial Growth of Self-Assembled InAs/GaAs Quantum Dots. K. Mukai, M. Sugawara, M. Egawa, N. Ohtsuka, Metalorganic Vapor Phase Epitaxial Growth of Self-Assembled InGaAs/GaAs Quantum Dots Emitting at um. K. Mukai and M. Sugawara, Optical.
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: Self-Assembled Quantum Dots (Lecture Notes in Nanoscale Science and Technology) (): Zhiming M Wang: Books5/5(1). Recently, the advent of self-organized quantum dots has made it possible to apply the results in important optical devices, and further progress is expected in the near future.
The authors, working for Fujitsu Laboratories, are leading this quantum-dot research : Paperback. Written by leading experts in the field, Self-Assembled Quantum Dots provides up-to-date coverage of carrier and spin dynamics and energy transfer.
Hence the practical emphasis of this book. Though, of course, it is meant for the researcher. The self assembling property offers a Self-assembled quantum dots book [pun] chance to make cheaper devices.
Hopefully, this might eliminate a few lithographic steps and hence help push up device yield. Plus, of course, the small size of the dots leads to novel quantum effects.4/4(1). Simple image of a self-assembled semiconductor quantum dot The quantum dots (QDs) of our interest are those obtained by the self-organized growth technique (see figure ).
In this technique, one starts by sending atomic fluxes of In and As on a thick GaAs substrate. A comprehensive review of cutting-edge solid state research, focusing on quantum dot nanostructures, this book features a broad range of techniques for fabrication of these nano-structured semiconductors and control of their quantum properties.
It is a valuable resource for graduate students and researchers new to this field. Alexander Tartakovskii is a Reader in 4/5(1). Self-assembled quantum dots.
Electrons and holes confined withing a quantum dot (QD) present an interesting multi-level system (see figure 1) which can be used to investigate quantum phenomenon.
Our work uses Stranski-Krastanov grown QDs, which are embedded within layed semiconductor structures grown via molecular beam epitaxy. A self-assembled quantum dot is also an attractive host for a spin qubit . Applications include an ultra-sensitive magnetometer, quantum repeaters (to extend the distance over which quantum cryptography can operate) and possibly also quantum information processing.
There are two main points. Self-assembled quantum dots have excellent photonic properties. For instance, a single quantum dot is a high-brightness, narrow-linewidth source of single by: Recently, the advent of self-organized quantum dots has made it possible to apply the results in important optical devices, and further progress is expected in the near future.
The authors, working for Fujitsu Laboratories, are leading this quantum-dot research field. Hence the practical emphasis of this book. Though, of course, it is meant for the researcher. The self assembling property offers a glittering [pun] chance to make cheaper devices. Hopefully, this might eliminate a few lithographic steps and hence help push up device yield.
Plus, of course, the small size of the dots leads to novel quantum effects.4/5(1). This book deals with the electronic and optical properties of two low-dimensional systems: quantum dots and quantum antidots and is divided into two parts. Part one is a self-contained monograph which describes in detail the theoretical and experimental background for exploration of electronic states of the quantum-confined systems.
In quantum dots (QDs), the Auger recombination is a nonradiative process in which the electron–hole recombination energy is transferred to an additional carrier. It has been studied mostly in colloidal QDs, where the Auger recombination time is in the picosecond range and efficiently quenches the light emission.
In self-assembled QDs, on the other hand, the Cited by: Bla was added to the self-assembled quantum dot probe, and within 80 min, nearly 4-fold increase in the fluorescence emission of QD was observed, which was about 70% of its original emission of QD Download: Download full-size image; Fig.
Activation of the self-assembled quantum dot probes by Bla ( mg/mL) over by: Chapter 3 - Metalorganic Vapor Phase Epitaxial Growth of Self-Assembled InGaAs/GaAs Quantum Dots Emitting at μm Kohki Mukai, Mitsuru Sugawara, Mitsuru Egawa, Nobuyuki Ohtsuka Pages This book deals with the electronic and optical properties of two low-dimensional systems: quantum dots and quantum antidots and is divided into two parts.
Part one is a self-contained monograph which describes in detail the theoretical and experimental background for exploration of electronic states of the quantum-confined Edition: 1.
Open Library is an open, editable library catalog, building towards a web page for every book ever published. Self-Assembled Quantum Dots by Zhiming M Wang,Springer edition, paperback Self-Assembled Quantum Dots ( edition) | Open Library. The books come in a durable paperback format, with full-colour cover, black & white contents, and monochrome illustrations (where present).
Electronic states in self-assembled semiconductor quantum dots. Robson Ferreira and Gérald Bastard. View chapter Download PDF chapter Download ePub chapter. Pages to The book contains an up-to-date overview of the physics and technology of the man-made artificial atoms, i.e. the quantum dots.
Different methods of creation of quantum dots, and the mechanism of carrier confinement in these structures are described. 1-xAs dot in a GaAs matrix. The Indium fraction,x is higher at the top of the dot. 40 nm P. Koenraad, Eindhoven University Self Assembled Quantum Dots Light is created when an electron recombines with a hole.
This is the basis for the quantum dot laser. We can change the colour of light by modifying the dot structure to alter the energy levels. Grange T, Ferreira R and Bastard G Polaron relaxation in self-assembled quantum dots: Breakdown of the semiclassical model Phys.
Rev. B 76 (R) Crossref Kammerer C, Cassabois G, Voisin C, Delalande C, Roussignol Ph, Lemaître A and Gérard J M Efficient acoustical phonon broadening in single self-assembled InAs/GaAs quantum dots.Self-assembled quantum dots are commonly observed in a wide variety of semiconductor systems ranging from IV-IV (Ge/Si) to II-VI (CdSe/ZnSe) and III Author: Bruno Daudin.On the basis of cytochrome c-induced self-assembled graphene quantum dots, we demonstrate a novel fluorescent biosensor for trypsin with remarkable fluorescence enhancement, as well as high selectivity and by: