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Biological microscopy --- Electron Probe Microanalysis --- Microscopy, Electron --- Electron microscopy --- Electron probe microanalysis --- Image processing --- Microscopy --- Microscopie électronique --- Microanalyse par sonde électronique --- Traitement d'images --- Microscopie --- Periodicals. --- Périodiques --- Electron Probe Microanalysis. --- Microscopy, Electron. --- #TS:WDEP --- Electron Microscopy --- Microanalysis, Electron Probe --- Spectrometry, X Ray Emission, Electron Microscopic --- Spectrometry, X Ray Emission, Electron Probe --- X Ray Emission Spectrometry, Electron Microscopic --- X Ray Emission Spectrometry, Electron Probe --- X-Ray Microanalysis --- Microscopy, Electron, X-Ray Microanalysis --- Spectrometry, X-Ray Emission, Electron Microscopic --- Spectrometry, X-Ray Emission, Electron Probe --- X-Ray Emission Spectrometry, Electron Microscopic --- X-Ray Emission Spectrometry, Electron Probe --- X-Ray Microanalysis, Electron Microscopic --- X-Ray Microanalysis, Electron Probe --- Electron Probe Microanalyses --- Microanalyses, Electron Probe --- Microanalysis, X-Ray --- Probe Microanalyses, Electron --- Probe Microanalysis, Electron --- X Ray Microanalysis --- X Ray Microanalysis, Electron Microscopic --- X Ray Microanalysis, Electron Probe --- Nuclear Microscopy --- Periodicals --- Earth Sciences --- Life Sciences --- General and Others --- Mineralogy --- Biology --- Micro and Molecular Biology --- microscopie --- Journal --- Electron microprobe analysis --- Electron probe analysis --- Microprobe analysis
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Optics. Quantum optics --- Microscopy --- Electron probe microanalysis --- Microscopie --- Microanalyse par sonde électronique --- Periodicals --- Périodiques --- Electron Probe Microanalysis. --- Microscopy. --- RBINS-REPRINT --- Offprints --- Cytology --- Pathology --- Life Sciences --- Biology --- Extractive Metallurgy --- General and Others --- Material Science and Metallurgy --- Physics --- Cytology, Cell Biology --- Genetics --- Micro and Molecular Biology --- Biological microscopy --- Electron Probe Microanalysis --- Microscopy, Electron --- Electron microscopy --- Microscopie électronique --- Periodicals. --- Microscopy, Electron. --- #TS:TMTS --- #TS:WDEP --- Cytology. --- Pathology. --- Life Sciences. --- General and Others. --- Material Science and Metallurgy. --- Electron microscopy. --- Microanalysis, Electron Probe --- Spectrometry, X Ray Emission, Electron Microscopic --- Spectrometry, X Ray Emission, Electron Probe --- X Ray Emission Spectrometry, Electron Microscopic --- X Ray Emission Spectrometry, Electron Probe --- X-Ray Microanalysis --- Microscopy, Electron, X-Ray Microanalysis --- Spectrometry, X-Ray Emission, Electron Microscopic --- Spectrometry, X-Ray Emission, Electron Probe --- X-Ray Emission Spectrometry, Electron Microscopic --- X-Ray Emission Spectrometry, Electron Probe --- X-Ray Microanalysis, Electron Microscopic --- X-Ray Microanalysis, Electron Probe --- Electron Probe Microanalyses --- Microanalyses, Electron Probe --- Microanalysis, X-Ray --- Probe Microanalyses, Electron --- Probe Microanalysis, Electron --- X Ray Microanalysis --- X Ray Microanalysis, Electron Microscopic --- X Ray Microanalysis, Electron Probe --- Nuclear Microscopy --- Electron Microscopy --- microscopie --- Journal --- Electron probe microanalysis. --- Microanalyse par sonde électronique. --- Analysis, Microscopic --- Light microscopy --- Micrographic analysis --- Microscope and microscopy --- Microscopic analysis --- Optical microscopy --- Optics --- Compound Microscopy --- Hand-Held Microscopy --- Light Microscopy --- Optical Microscopy --- Simple Microscopy --- Hand Held Microscopy --- Microscopy, Compound --- Microscopy, Hand-Held --- Microscopy, Light --- Microscopy, Optical --- Microscopy, Simple --- Electron microprobe analysis --- Electron probe analysis --- Microprobe analysis
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Microscopy, Electron. --- Electron Microscopy --- Periodicals --- Engineering --- Life Sciences --- Physics --- Electronics --- Biology --- Optics & Opto Electronics --- Radiation --- microscopie --- Biological microscopy --- Microscopy, Electron --- elektronenmicroscopie
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Optics. Quantum optics --- Biological microscopy --- Biology --- Microscopy, Electron, Scanning --- Optics --- Scanning electron microscopy --- Microscopie électronique à balayage --- Periodicals. --- Périodiques --- Scanning electron microscopy. --- #TS:TMTS --- Engineering --- Health Sciences --- Life Sciences --- Electronics --- Instrumentation --- Diagnostics --- Radiology --- microscopie --- electron microscopies --- multi-photon microscopy --- confocal scanning optical microscopes --- scanning probe microscopy --- Electron microscopy --- Journal --- Periodicals --- Microscòpia mèdica. --- Microscopis. --- Revistes electròniques.
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Physics --- Electron spectroscopy --- Spectroscopie électronique --- Periodicals --- Périodiques --- Electron spectroscopy. --- Spectroscopie électronique --- Périodiques. --- Chemistry --- Electrochemistry --- Electronics --- Engineering --- General and Others --- Chemistry. --- Electronics. --- Engineering.
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This second edition is fully updated, covering in particular new types of coherent states (the so-called Gazeau-Klauder coherent states, nonlinear coherent states, squeezed states, as used now routinely in quantum optics) and various generalizations of wavelets (wavelets on manifolds, curvelets, shearlets, etc.). In addition, it contains a new chapter on coherent state quantization and the related probabilistic aspects. As a survey of the theory of coherent states, wavelets, and some of their generalizations, it emphasizes mathematical principles, subsuming the theories of both wavelets and coherent states into a single analytic structure. The approach allows the user to take a classical-like view of quantum states in physics. Starting from the standard theory of coherent states over Lie groups, the authors generalize the formalism by associating coherent states to group representations that are square integrable over a homogeneous space; a further step allows one to dispense with the group context altogether. In this context, wavelets can be generated from coherent states of the affine group of the real line, and higher-dimensional wavelets arise from coherent states of other groups. The unified background makes transparent an entire range of properties of wavelets and coherent states. Many concrete examples, such as coherent states from semisimple Lie groups, Gazeau-Klauder coherent states, coherent states for the relativity groups, and several kinds of wavelets, are discussed in detail. The book concludes with a palette of potential applications, from the quantum physically oriented, like the quantum-classical transition or the construction of adequate states in quantum information, to the most innovative techniques to be used in data processing. Intended as an introduction to current research for graduate students and others entering the field, the mathematical discussion is self-contained. With its extensive references to the research literature, the first edition of the book is already a proven compendium for physicists and mathematicians active in the field, and with full coverage of the latest theory and results the revised second edition is even more valuable.
Group theory --- Quantum mechanics. Quantumfield theory --- Physics --- Spectrometric and optical chemical analysis --- quantumfysica --- electron spin resonance spectre --- informatietechnologie --- wiskunde --- fysica
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Towards Solid-State Quantum Repeaters: Ultrafast, Coherent Optical Control and Spin-Photon Entanglement in Charged InAs Quantum Dots summarizes several state-of-the-art coherent spin manipulation experiments in III-V quantum dots. Both high-fidelity optical manipulation, decoherence due to nuclear spins and the spin coherence extraction are discussed, as is the generation of entanglement between a single spin qubit and a photonic qubit. The experimental results are analyzed and discussed in the context of future quantum technologies, such as quantum repeaters. Single spins in optically active semiconductor host materials have emerged as leading candidates for quantum information processing (QIP). The quantum nature of the spin allows for encoding of stationary, memory quantum bits (qubits), and the relatively weak interaction with the host material preserves the spin coherence. On the other hand, optically active host materials permit direct interfacing with light, which can be used for all-optical qubit manipulation, and for efficiently mapping matter qubits into photonic qubits that are suited for long-distance quantum communication.
Elementary particles --- Physics --- Spectrometric and optical chemical analysis --- elementaire deeltjes --- electron spin resonance spectre --- kwantumleer --- informatietechnologie --- fysica
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The two-volume textbook Quantum Mechanics for Pedestrians provides an introduction to the basics of nonrelativistic quantum mechanics. Originally written as a course for students of science education, the book addresses all those science students and others who are looking for a reasonably simple, fresh and modern introduction to the field. The basic principles of quantum mechanics are presented in the first volume. This second volume discusses applications and extensions to more complex problems. In addition to topics traditionally dealt with in quantum mechanics texts, such as symmetries or many-body problems, here also issues of current interest such as entanglement, Bell's inequalities, decoherence and various aspects of quantum information are treated in detail. Furthermore, questions of the basis of quantum mechanics and epistemological issues are discussed explicitly; these are relevant e.g. to the realism debate. A chapter on the interpretations of quantum mechanics completes this volume. The necessary mathematical tools are introduced step by step; in the appendix, the most relevant mathematics is compiled in compact form. More advanced topics such as the Lenz vector, Hardy's experiment and Shor's algorithm are treated in more detail in the appendix. As an essential aid to learning and teaching, 130 exercises are included, most of them with their solutions.
Mathematics --- Quantum mechanics. Quantumfield theory --- Physics --- Spectrometric and optical chemical analysis --- quantumfysica --- electron spin resonance spectre --- informatietechnologie --- wiskunde --- fysica
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