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Principles of Electron Optics: Second Edition, Advanced Wave Optics provides a self-contained, modern account of electron optical phenomena with the Dirac or Schrödinger equation as a starting point. Knowledge of this branch of the subject is essential to understanding electron propagation in electron microscopes, electron holography and coherence. Sections in this new release include, Electron Interactions in Thin Specimens, Digital Image Processing, Acquisition, Sampling and Coding, Enhancement, Linear Restoration, Nonlinear Restoration – the Phase Problem, Three-dimensional Reconstruction, Image Analysis, Instrument Control, Vortex Beams, The Quantum Electron Microscope, and much more.
Electron optics. --- Electronic optics --- Optics, Electronic --- Optics --- Quantum electronics --- Microscopy, Electron --- Optical Phenomena --- Optics and Photonics
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Get the foundational knowledge you need in the area of visual optics with the text that is easy to comprehend, visually appealing, and engaging from cover to cover. Introduction to Visual Optics: A Light Approach covers the basic information you need in this complex area in a significantly more approachable manner than other resources on the market. You’ll find clear, easy-to-read explanations that work hand-in-hand with colourful charts, graphs, illustrations, and diagrams created by the author, Dr. Samantha Strong. This unique text is perfect for optometry students, optometrists, ophthalmology residents, student dispensing opticians, and others in the eye care field.[from the publisher].
Physiological optics. --- Optics, Physiological --- Optics --- Vision --- Light --- Optical Phenomena --- Vision, Ocular
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Magnetism is an important physical property of many materials. This volume serves as a useful reference for specialists and non-specialists interested in this exciting area of magneto-science. It details both the basics of the subject as well as industrial applications for magnet manufacturing.
Magnetooptics. --- Magnetism. --- Mathematical physics --- Physics --- Electricity --- Magnetics --- Magneto-optical effects --- Magneto-optics --- Magnetooptical effects --- Optical phenomena, Influence of magnetism on --- Optics --- Magnetism --- Magnetooptics --- 537.6 --- 537.6 Magnetism
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This book presents experimental studies on emergent transport and magneto-optical properties in three-dimensional topological insulators with two-dimensional Dirac fermions on their surfaces. Designing magnetic heterostructures utilizing a cutting-edge growth technique (molecular beam epitaxy) stabilizes and manifests new quantization phenomena, as confirmed by low-temperature electrical transport and time-domain terahertz magneto-optical measurements. Starting with a review of the theoretical background and recent experimental advances in topological insulators in terms of a novel magneto-electric coupling, the author subsequently explores their magnetic quantum properties and reveals topological phase transitions between quantum anomalous Hall insulator and trivial insulator phases; a new topological phase (the axion insulator); and a half-integer quantum Hall state associated with the quantum parity anomaly. Furthermore, the author shows how these quantum phases can be significantly stabilized via magnetic modulation doping and proximity coupling with a normal ferromagnetic insulator. These findings provide a basis for future technologies such as ultra-low energy consumption electronic devices and fault-tolerant topological quantum computers.
Magnetooptics. --- Topological insulators. --- Insulators, Topological --- Electric insulators and insulation --- Electronic apparatus and appliances --- Magneto-optical effects --- Magneto-optics --- Magnetooptical effects --- Optical phenomena, Influence of magnetism on --- Optics --- Materials
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Optics --- Optique --- Optique. --- Optical Phenomena. --- Optics. --- Optica. --- Physics --- Light --- Optical Phenomenon --- Optical Process --- Optical Concepts --- Optical Processes --- Concept, Optical --- Concepts, Optical --- Optical Concept --- Phenomena, Optical --- Phenomenon, Optical --- Process, Optical --- Processes, Optical
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Neurophotonics covers advances in optical technology applicable to study of the brain and their impact on basic and clinical neuroscience applications.
Brain --- Diagnostic imaging --- Optical instruments --- Cerveau --- Imagerie pour le diagnostic --- Optique --- Imaging --- Periodicals. --- Imagerie --- Périodiques --- Instruments --- Diagnostic imaging. --- Optical instruments. --- Imaging. --- Optics --- Clinical imaging --- Imaging, Diagnostic --- Medical diagnostic imaging --- Medical imaging --- Noninvasive medical imaging --- Cerebrum --- Mind --- Neuroimaging --- Optical Phenomena --- Physical instruments --- Diagnosis, Noninvasive --- Imaging systems in medicine --- Central nervous system --- Head --- Optical Phenomenon --- Optical Process --- Optical Concepts --- Optical Processes --- Concept, Optical --- Concepts, Optical --- Optical Concept --- Phenomena, Optical --- Phenomenon, Optical --- Process, Optical --- Processes, Optical --- Brain Imaging --- Imaging, Brain --- Neuroimaging. --- Optical Phenomena/
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The Science of Color
Color. --- Color Perception. --- Couleur --- Color --- Color vision. --- Colorimetry. --- Color Perception --- Visual Perception --- Light --- Optical Phenomena --- Radiation, Nonionizing --- Perception --- Mental Processes --- Physical Phenomena --- Radiation --- Psychological Phenomena and Processes --- Phenomena and Processes --- Electromagnetic Phenomena --- Psychiatry and Psychology --- Light & Optics --- Physics --- Physical Sciences & Mathematics --- Chromatics --- Colour --- Chemistry --- Optics --- Colors --- Thermochromism
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Luminescence --- Photochemistry --- Transition metal complexes --- Complexes de métaux de transition --- Photochimie --- methods --- Electronic books. -- local. --- Luminescence. --- Photochemistry. --- Transition metal complexes. --- Light --- Chemistry, Physical --- Optical Phenomena --- Radiation, Nonionizing --- Chemistry --- Physical Phenomena --- Radiation --- Natural Science Disciplines --- Disciplines and Occupations --- Electromagnetic Phenomena --- Phenomena and Processes --- Inorganic Chemistry --- Physical Sciences & Mathematics --- Photolysis (Chemistry) --- Chemical action --- Chemistry. --- Inorganic chemistry. --- Physical chemistry. --- Inorganic Chemistry. --- Physical Chemistry. --- Afterglow (Physics) --- Light sources --- Chemistry, Physical and theoretical --- Metal complexes --- Transition metal compounds --- Chemistry, inorganic. --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Inorganic chemistry --- Inorganic compounds --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry
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The second edition of 'Optical-Thermal Response of Laser-Irradiated Tissue' maintains the standard of excellence established in the first edition, while adjusting the content to reflect changes in tissue optics and medical applications since 1995. The material concerning light propagation now contains new chapters devoted to electromagnetic theory for coherent light. The material concerning thermal laser-tissue interactions contains a new chapter on pulse ablation of tissue. The medical applications section now includes several new chapters on Optical Coherent Tomography, acoustic imaging, molecular imaging, forensic optics and nerve stimulation. A detailed overview is provided of the optical and thermal response of tissue to laser irradiation along with diagnostic and therapeutic examples including fiber optics. Sufficient theory is included in the book so that it is suitable for a one or two semester graduate or for senior elective courses. Material covered includes: 1. light propagation and diagnostic application; 2. the thermal response of tissue and therapeutic application; 3. denaturation; 4. ablation. The theory and applications provide researchers with sufficient detail that this volume will become the primary reference for laser-tissue interactions and medical applications.
Biomedical engineering. --- Lasers -- Physiological effect. --- Lasers. --- Light. --- Radiation Effects. --- Thermal Conductivity. --- Tissues -- Optical properties. --- Tissues -- Thermal properties. --- Optical Phenomena --- Optical Devices --- Thermodynamics --- Tomography, Optical --- Radiation Equipment and Supplies --- Radiation, Nonionizing --- Equipment and Supplies --- Physical Phenomena --- Tomography --- Radiation --- Phenomena and Processes --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Diagnostic Imaging --- Electromagnetic Phenomena --- Diagnostic Techniques and Procedures --- Diagnosis --- Light --- Lasers --- Thermal Conductivity --- Tomography, Optical Coherence --- Biology --- Physics --- Physical Sciences & Mathematics --- Health & Biological Sciences --- Biophysics --- Physics - General --- Electrooptics. --- Biotechnology. --- Electro-optics --- Physics. --- Physics, general. --- Biomedicine general. --- Chemical engineering --- Genetic engineering --- Optics --- Medicine. --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Biomedicine, general. --- Health Workforce
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