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X-Ray Diffraction Imaging Technology and Applications

X-Ray Diffraction Imaging Technology and Applications

This book explores novel methods for implementing X-ray diffraction technology as an imaging modality which have been made possible through recent breakthroughs in detector technology computational power and data processing algorithms. The ability to perform fast spatially-resolved X-ray diffraction throughout the volume of a sample opens up entirely new possibilities in areas such as material analysis cancer diagnosis and explosive detection thus offering the potential to revolutionize the fields of medical security and industrial imaging and detection. Featuring chapters written by an international selection of authors from both academia and industry the book provides a comprehensive discussion of the underlying physics architectures and applications of X-ray diffraction imaging that is accessible and relevant to neophytes and experts alike. Teaches novel methods for X-ray diffraction imaging Comprehensive and self-contained discussion of the relevant physics imaging techniques system components and data processing algorithmsFeatures state-of-the-art work of international authors from both academia and industry. Includes practical applications in the medical industrial and security sectors | X-Ray Diffraction Imaging Technology and Applications

GBP 52.99
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High Resolution X-Ray Diffractometry And Topography

High Resolution X-Ray Diffractometry And Topography

The study and application of electronic materials has created an increasing demand for sophisticated and reliable techniques for examining and characterizing these materials. This comprehensive book looks at the area of x-ray diffraction and the modern techniques available for deployment in research development and production. It provides the theoretical and practical background for applying these techniques in scientific and industrial materials characterization. The main aim of the book is to map the theoretical and practical background necessary to the study of single crystal materials by means of high-resolution x-ray diffraction and topography. It combines mathematical formalisms with graphical explanations and hands-on practical advice for interpreting data. | High Resolution X-Ray Diffractometry And Topography

GBP 59.99
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Create Stunning Renders Using V-Ray in 3ds Max Guiding the Next Generation of 3D Renderers

Create Stunning Renders Using V-Ray in 3ds Max Guiding the Next Generation of 3D Renderers

Create Stunning Renders using V-Ray in 3ds Max: Guiding the Next Generation of 3D Renderers is a step-by-step guide on how to create realistic renderings using V-Ray in 3ds Max. The potentials of V-Ray are detailed using a bedroom scene as an example. The book introduces the 3ds Max interface and the basic commands allowing readers to familiarize themselves with the work environment from the very beginning. This book is intended for architects interior designers and anyone else wanting to create photorealistic renderings using V-Ray in 3ds Max. The reader does not need experience to follow this book but any prior knowledge of working in 3ds Max will help the reader jump right in. Margarita Nikita is the co-founder of High Q Renders LLC an award-winning creative company based in San Francisco CA with offices in Greece. Nikita has published several design books on 2D and 3D graphic design some of which are used in university courses actively contributing to the formation of the new generation of 3D modelers in her native country Greece. She shares her knowledge advice and tips and tricks on her YouTube channel Margarita Nikita. More of her work is available at her Instagram account @margarita. nikita. | Create Stunning Renders Using V-Ray in 3ds Max Guiding the Next Generation of 3D Renderers

GBP 48.99
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Cosmic Ray Physics An Introduction to The Cosmic Laboratory

Cosmic Ray Physics An Introduction to The Cosmic Laboratory

This book introduces you to the physics of cosmic rays charged particles which reach us from known – and maybe unknown – sources in the cosmos. Starting from a brief history of this fascinating field it reviews what we know about the creation of elements in the Big Bang and inside stars. It explains cosmic accelerators reaching fabulous energies. It follows the life cycle of cosmic rays all the way from their sources to detection near on or below Earth. The central three chapters cover what we know about them at the level of the solar system the Milky Way and the Universe at large. Up-to-date experimental results are presented in detail showing how they are obtained and interpreted. The book provides an accessible overview of this lively and diversified research field. It will be of interest to undergraduate physics students beginning their studies on astronomy cosmology and particle physics. It is also accessible to the general public by concentrating mathematical and technical detail into Focus Boxes. Key features: Complete introductory overview of cosmic ray physics Covers the origins acceleration transport mechanisms and detection of these particles Mathematical and technical detail is kept separate from the main text | Cosmic Ray Physics An Introduction to The Cosmic Laboratory

GBP 49.99
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Fish Cytogenetic Techniques Ray-Fin Fishes and Chondrichthyans

Fish Cytogenetic Techniques Ray-Fin Fishes and Chondrichthyans

Recent advances in fish cytogenetics have enhanced the interest in chromosome analysis in both fundamental (systematics and comparative genomics among fishes and other vertebrate groups) and applied (aquaculture conservation and response to pollutants whole genome sequencing of model fish species) research. Although the genomic material the chromosomes is basically the same in the various organisms experience has clearly shown that fish chromosomes have to be handled with specific protocols. In laboratories around the world traditional cytogenetic techniques and molecular cytogenetics have seen a vast improvement but the technical details and protocols are often not published in scientific journals because of constraints in format and size and therefore they are not accessible to the whole scientific community. These shortcomings are very well known to fish cytogeneticists and the idea to prepare a specific manual was first discussed during the first Workshop of Fish Cytogenetics held in Concarneau (France) in 1992. Resulting from the above workshop a draft compilation of the techniques and protocols in fish cytogenetics available at that time had been produced and distributed privately but never published. There does not exist at present any published handbook or manual specifically dealing with fish cytogenetics. This book fills this void by bringing together and updating the main techniques so that the traditional methods can be standardized. Moreover this book includes novel developments or improvements; some of the protocols provided here are practically unknown to the scientific community and even now unpublished. | Fish Cytogenetic Techniques Ray-Fin Fishes and Chondrichthyans

GBP 59.99
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Data Driven Guide to the Analysis of X-ray Photoelectron Spectra using RxpsG

Data Driven Guide to the Analysis of X-ray Photoelectron Spectra using RxpsG

This book provides a theoretical background to X-ray photoelectron spectroscopy (XPS) and a practical guide to the analysis of the XPS spectra using the RxpsG software a powerful tool for XPS analysis. Although there are several publications and books illustrating the theory behind XPS and the origin of the spectral feature this book provides an additional practical introduction to the use of RxpsG. It illustrates how to use the RxpsG software to perform specific key operations with figures and examples which readers can reproduce themselves. The book contains a list of theoretical sections explaining the appearance of the various spectral features (core‑lines Auger components valence bands loss features etc. ). They are accompanied by practical steps so readers can learn how to analyze specific spectral features using the various functions of the RxpsG software. This book is a useful guide for researchers in physics chemistry and material science who are looking to begin using XPS in addition to experienced researchers who want to learn how to use RxpsG. In the digital format the spectral data and step-by-step indications are provided to reproduce the examples given in the textbook. RxpsG is a free software for the spectral analysis. Readers can find the installation information and download the package from https://github. com/GSperanza/ website. RxpsG was developed mainly by Giorgio Speranza with the help of his colleague dr. Roberto Canteri working at Fondazione Bruno Kessler. Key Features: Simplifies the use of RxpsG how it works and its applications. Demonstrates RxpsG using a reproduction of the graphical interface of RxpsG showing the steps needed to perform a specific task and the effect on the XPS spectra. Accessible to readers without any prior experience using the RxpsG software. Giorgio Speranza is Senior Researcher at Fondazione Bruno Kessler – Trento Italy Associate Member of the Italian National Council of Research and Associate Member of the Department of Industrial Engineering at the University of Trento Italy. | Data Driven Guide to the Analysis of X-ray Photoelectron Spectra using RxpsG

GBP 74.99
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Cone Beam Computed Tomography

Cone Beam Computed Tomography

Conventional computed tomography (CT) techniques employ a narrow array of x-ray detectors and a fan-shaped x-ray beam to rotate around the patient to produce images of thin sections of the patient. Large sections of the body are covered by moving the patient into the rotating x-ray detector and x-ray source gantry. Cone beam CT is an alternative technique using a large area detector and cone-shaped x-ray beam to produce 3D images of a thick section of the body with one full angle (360 degree or 180 degree plus detector coverage) rotation. It finds applications in situations where bulky conventional CT systems would interfere with clinical procedures or cannot be integrated with the primary treatments or imaging systems. Cone Beam Computed Tomography explores the past present and future state of medical x-ray imaging while explaining how cone beam CT with its superior spatial resolution and compact configuration is used in clinical applications and animal research. The book:Supplies a detailed introduction to cone beam CT covering basic principles and applications as well as advanced techniquesExplores state-of-the-art research and future developments while examining the fundamental limitations of the technologyAddresses issues related to implementation and system characteristics including image quality artifacts radiation dose and perceptionReviews the historical development of medical x-ray imaging from conventional CT techniques to volumetric 3D imagingDiscusses the major components of cone beam CT: image acquisition reconstruction processing and displayA reference work for scientists engineers students and imaging professionals Cone Beam Computed Tomography provides a solid understanding of the theory and implementation of this revolutionary technology.

GBP 44.99
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Spectral Photon Counting Computed Tomography Technology and Applications

Spectral Photon Counting Computed Tomography Technology and Applications

Spectral Photon Counting Computed Tomography is a comprehensive cover of the latest developments in the most prevalent imaging modality (x-ray computed tomography (CT)) in its latest incarnation: Spectral Dual-Energy and Photon Counting CT. Disadvantages of the conventional single-energy technique used by CT technology are that different materials cannot be distinguished and that the noise is larger. To address these problems a novel spectral CT concept has been proposed. Spectral Dual-Energy CT (DE-CT) acquires two sets of spectral data and Spectral Photon Counting CT (PC-CT) detects energy of x-ray photons to reveal additional material information of objects by using novel energy-sensitive photon-counting detectors. The K-edge imaging may be a gateway for functional or molecular CT. The book covers detectors and electronics image reconstruction methods image quality assessments a simulation tool nanoparticle contrast agents and clinical applications for spectral CT. | Spectral Photon Counting Computed Tomography Technology and Applications

GBP 58.99
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A Practical Guide to Instrumental Analysis

A Practical Guide to Instrumental Analysis

A Practical Guide to Instrumental Analysis covers basic methods of instrumental analysis including electroanalytical techniques optical techniques atomic spectroscopy X-ray diffraction thermoanalytical techniques separation techniques and flow analytical techniques. Each chapter provides a brief theoretical introduction followed by basic and special application experiments. This book is ideal for readers who need a knowledge of special techniques in order to use instrumental methods to conduct their own analytical tasks.

GBP 56.99
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Analytical Methods for Polymer Characterization

Analytical Methods for Polymer Characterization

Analytical Methods for Polymer Characterization presents a collection of methods for polymer analysis. Topics include chromatographic methods (gas chromatography inverse gas chromatography and pyrolysis gas chromatography) mass spectrometry spectroscopic methods (ultraviolet-visible spectroscopy infrared spectroscopy Raman spectroscopy and nuclear magnetic resonance) thermal analysis (differential scanning calorimetry and thermogravimetry) microscopy methods (scanning electron microscopy transmission electron microscopy and atomic force microscopy) and x-ray diffraction. The author also discusses mechanical and dynamic mechanical properties.

GBP 44.99
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Semiconductor Radiation Detectors Technology and Applications

Semiconductor Radiation Detectors Technology and Applications

The aim of this book is to educate the reader on radiation detectors from sensor to read-out electronics to application. Relatively new detector materials such as CdZTe and Cr compensated GaAs are introduced along with emerging applications of radiation detectors. This X-ray technology has practical applications in medical industrial and security applications. It identifies materials based on their molecular composition not densities as the traditional transmission equipment does. With chapters written by an international selection of authors from both academia and industry the book covers a wide range of topics on radiation detectors which will satisfy the needs of both beginners and experts in the field. | Semiconductor Radiation Detectors Technology and Applications

GBP 52.99
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Charged Particle and Photon Interactions with Matter Chemical Physicochemical and Biological Consequences with Applications

Charged Particle and Photon Interactions with Matter Chemical Physicochemical and Biological Consequences with Applications

Charged Particle and Photon Interactions with Matter offers in-depth perspectives on phenomena of ionization and excitation induced by charged particle and photon interactions with matter in vivo and in vitro. This reference probes concepts not only in radiation and photochemistry but also in radiation physics radiation biochemistry and radiation biology as well as recent applications in medicine and material environmental space and biological science and engineering. It studies reports on the interactions of high-energy photons specifically in the vacuum ultraviolet-soft X-ray region to offer fundamental information on the primary processes of the interactions of charged particles with matter. | Charged Particle and Photon Interactions with Matter Chemical Physicochemical and Biological Consequences with Applications

GBP 56.99
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Techniques in Inorganic Chemistry

Techniques in Inorganic Chemistry

Inorganic chemistry continues to generate much current interest due to its array of applications ranging from materials to biology and medicine. Techniques in Inorganic Chemistry assembles a collection of articles from international experts who describe modern methods used by research students and chemists for studying the properties and structures of inorganic chemicals. Crystallography and diffraction methods The book begins by examining developments in small-molecule x-ray crystallography. It identifies some of the major advances discusses current attitudes toward crystallography and its uses and considers challenges and future prospects. It then examines how ab initio x-ray powder diffraction (XRPD) methods are used to determine structure with discussions on metal pyrazolates metal imidazolates and metal pyrimidinolates. This is followed by a description of single crystal neutron diffraction a powerful structural technique. The text highlights what can presently be achieved in neutron diffraction and discusses future applications of neutron scattering. Quantum chemistry Reflecting the popularity of density functional calculations the book includes a chapter that focuses on quantum chemistry. It examines the latest computational techniques and describes how these techniques can be applied to solve a wide range of real-world problems encountered in the realm of inorganic chemistry and particularly in transition metal chemistry. It also explains the intelligent use of quantum chemical methods for the determination of molecular structure reactivity and spectra of coordination and organometallic compounds. Spectroscopy Lastly the text explores important spectroscopic approaches. It first describes intermolecular nuclear Overhauser effect (NOE) NMR experiments and diffusion experiments offering examples that demonstrate theoretical aspects of the methodology. The final chapter summarizes recent experimental and theoretical work on pressure effects on the d-d and luminescence spectra of transition metal complexes. Derived from select articles in Comments on Inorganic Chemistry this volume provides a solid background in the array of techniques available in the researcher’s toolkit.

GBP 74.99
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Introduction to Physics in Modern Medicine

Introduction to Physics in Modern Medicine

From x-rays to lasers to magnetic resonance imaging developments in basic physics research have been transformed into medical technologies for imaging surgery and therapy at an ever-accelerating pace. Physics has joined with genetics and molecular biology to define much of what is modern in modern medicine and allied health. Covering a wide range of applications Introduction to Physics in Modern Medicine Third Edition builds further on the bestselling second edition. Based on the courses taught by the authors the book provides medical personnel and students with an exploration of the physics-related applications found in state-of-the-art medical centers. Requiring no previous acquaintance with physics biology or chemistry and keeping mathematics to a minimum the application-dedicated chapters adhere to simple and self-contained qualitative explanations that make use of examples illustrations clinical applications sample calculations and exercises. With an enhanced emphasis on digital imaging and computers in medicine the text gives readers a fundamental understanding of the practical application of each concept and the basic science behind it. This book provides medical students with an excellent introduction to how physics is applied in medicine while also providing students in physics with an introduction to medical physics. Each chapter includes worked examples and a complete list of problems and questions. That so much of the technology discussed in this book was the stuff of dreams just a few years ago makes this book as fascinating as it is practical both for those in medicine as well as those in physics who might one day discover that the project they are working on is the basis for the next great medical application. Features: · Introduces state-of-the-art and emerging medical technologies such as optical coherence tomography x-ray phase contrast imaging and ultrasound-mediated drug delivery · Covers hybrid scanners for cancer imaging and the interplay of molecular medicine with MRI CT and PET in addition to intensity-modulated radiation therapy and new forms of cancer treatments such as proton and heavy-ion therapies · Offers an enhanced emphasis on digital imaging and dosimetry including recent innovations in the pixel-array x-ray detectors ultrasound matrix transducers and direct-ion storage dosimeters

GBP 56.99
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Handbook of Nanophysics Principles and Methods

Handbook of Nanophysics Principles and Methods

Covering the key theories tools and techniques of this dynamic field Handbook of Nanophysics: Principles and Methods elucidates the general theoretical principles and measurements of nanoscale systems. Each peer-reviewed chapter contains a broad-based introduction and enhances understanding of the state-of-the-art scientific content through fundamental equations and illustrations some in color. This volume explores the theories involved in nanoscience. It also discusses the properties of nanomaterials and nanosystems including superconductivity thermodynamics nanomechanics and nanomagnetism. In addition leading experts describe basic processes and methods such as atomic force microscopy STM-based techniques photopolymerization photoisomerization soft x-ray holography and molecular imaging. Nanophysics brings together multiple disciplines to determine the structural electronic optical and thermal behavior of nanomaterials; electrical and thermal conductivity; the forces between nanoscale objects; and the transition between classical and quantum behavior. Facilitating communication across many disciplines this landmark publication encourages scientists with disparate interests to collaborate on interdisciplinary projects and incorporate the theory and methodology of other areas into their work. | Handbook of Nanophysics Principles and Methods

GBP 69.99
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Computational Modelling and Imaging for SARS-CoV-2 and COVID-19

Computational Modelling and Imaging for SARS-CoV-2 and COVID-19

The aim of this book is to present new computational techniques and methodologies for the analysis of the clinical epidemiological and public health aspects of SARS-CoV-2 and COVID-19 pandemic. The book presents the use of soft computing techniques such as machine learning algorithms for analysis of the epidemiological aspects of the SARS-CoV-2. This book clearly explains novel computational image processing algorithms for the detection of COVID-19 lesions in lung CT and X-ray images. It explores various computational methods for computerized analysis of the SARS-CoV-2 infection including severity assessment. The book provides a detailed description of the algorithms which can potentially aid in mass screening of SARS-CoV-2 infected cases. Finally the book also explains the conventional epidemiological models and machine learning techniques for the prediction of the course of the COVID-19 epidemic. It also provides real life examples through case studies. The book is intended for biomedical engineers mathematicians postgraduate students; researchers; medical scientists working on identifying and tracking infectious diseases. | Computational Modelling and Imaging for SARS-CoV-2 and COVID-19

GBP 44.99
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Acting and Character Animation The Art of Animated Films Acting and Visualizing

Acting and Character Animation The Art of Animated Films Acting and Visualizing

Animation has a lot to do with acting. That is character animation not the standardized mechanical process of animation. Acting and animation are highly creative processes. This book is divided into two parts: From film history we learn about the importance of actors and the variety of acting that goes into animation; then we will turn to the actor's point of view to describe the various techniques involved. Through exhaustive research and interviews with people ranging from the late Ray Harryhausen Jim Danforth Joe Letteri and Bruno Bozzetto this book will be the primary source for animators and animation actors. Key Features Interviews with industry legends are found throughout this exhaustive work on animation From film history we learn about the importance of actors and the variety of acting that goes into animation then turn to the actor's point of view to describe the various techniques involved Coverage of acting from Vaudeville to Rotoscoping to Performance Capture Case studies throughout bring the content to life while providing actionable tools and techniques that can be used immediately | Acting and Character Animation The Art of Animated Films Acting and Visualizing

GBP 66.99
1

Solid-State Radiation Detectors Technology and Applications

Solid-State Radiation Detectors Technology and Applications

Integrating aspects of engineering application physics and medical science Solid-State Radiation Detectors: Technology and Applications offers a comprehensive review of new and emerging solid-state materials-based technologies for radiation detection. Each chapter is structured to address the current advantages and challenges of each material and technology presented as well as to discuss novel research and applications. Featuring contributions from leading experts in industry and academia this authoritative text:Covers modern semiconductors used for radiation monitoringExamines CdZnTe and CdTe technology for imaging applications including three-dimensional capability detectorsHighlights interconnect technology for current pixel detectorsDescribes hybrid pixel detectors and their characterizationsTackles the integrated analog signal processing read-out front ends for particle detectorsConsiders new organic materials with direct bandgap for direct energy detectionSummarizes recent developments involving lanthanum halide and cerium bromide scintillatorsAnalyzes the potential of recent progress in the field of crystallogenesis quantum dots and photonics crystals toward a new concept of x- and gamma-ray detectors based on metamaterialsExplores position-sensitivity photomultipliers and silicon photomultipliers for scintillation crystalsSolid-State Radiation Detectors: Technology and Applications provides a valuable reference for engineers and scientists looking to enhance the performance of radiation detector technology for medical imaging and other applications. | Solid-State Radiation Detectors Technology and Applications

GBP 59.99
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Ion Beam Analysis Fundamentals and Applications

Ion Beam Analysis Fundamentals and Applications

Ion Beam Analysis: Fundamentals and Applications explains the basic characteristics of ion beams as applied to the analysis of materials as well as ion beam analysis (IBA) of art/archaeological objects. It focuses on the fundamentals and applications of ion beam methods of materials characterization. The book explains how ions interact with solids and describes what information can be gained. It starts by covering the fundamentals of ion beam analysis including kinematics ion stopping Rutherford backscattering channeling elastic recoil detection particle induced x-ray emission and nuclear reaction analysis. The second part turns to applications looking at the broad range of potential uses in thin film reactions ion implantation nuclear energy biology and art/archaeology. Examines classical collision theoryDetails the fundamentals of five specific ion beam analysis techniquesIllustrates specific applications including biomedicine and thin film analysisProvides examples of ion beam analysis in traditional and emerging research fields Supplying readers with the means to understand the benefits and limitations of IBA the book offers practical information that users can immediately apply to their own work. It covers the broad range of current and emerging applications in materials science physics art archaeology and biology. It also includes a chapter on computer applications of IBA. | Ion Beam Analysis Fundamentals and Applications

GBP 59.99
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Peptide and Protein Drug Analysis

Peptide and Protein Drug Analysis

Furthering efforts to simulate the potency and specificity exhibited by peptides and proteins in healthy cells this remarkable reference supplies pharmaceutical scientists with a wealth of techniques for tapping the enormous therapeutic potential of these molecules-providing a solid basis of knowledge for new drug design. Provides a broad comprehensive overview of peptides and proteins as mediators of cell movement proliferation differentiation and communication. Written by more than 50 leading international authorities Peptides and Protein Drug Analysisdiscusses strategies for dealing with the complexity of peptides and proteins in conformational flexibility and amino acid sequence variability analyzes drug formulations facilitated by solid-phase peptide synthesis and recombinant DNA technology examines chemical purity analysis by high-pressure chromatographic capillary electrophoretic gel electrophoretic and isoelectric focusing methods highlights drug design elements derived from protein folding bioinformatics and computational chemistry demonstrates uses of unnatural mutagenesis and combinatorial chemistry explores mass spectrometry protein sequence and carbohydrate analysis illustrates bioassays and other new functional analysis methods surveys spectroscopic techniques such as ultraviolet fluorescence Fourier transform infrared and nuclear magnetic resonance (NMR) addresses ways of distinguishing between levels of therapeutic and endogenous agents in cells reviews structural analysis tools such as ultracentrifugation and light X-ray and neutron scattering and more! Featuring over 3400 bibliographic citations and more than 500 tables equations and illustrations Peptide and Protein Drug Analysis is a must-read resource for pharmacists; pharmacologists; analytical organic and pharmaceutical chemis

GBP 59.99
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Optimization of Multilayered Radar Absorbing Structures (RAS) using Nature Inspired Algorithm

Optimization of Multilayered Radar Absorbing Structures (RAS) using Nature Inspired Algorithm

Stealth technology is a crucial pre-requisite in the combat zone where swiftness surprise and initiative are the decisive elements for survivability. The supreme goal here is to reduce the visibility of military vehicles by shaping application of radar absorbing materials passive cancellation active cancellation etc. With respect to multilayered radar absorbing structures (RAS) this book presents an efficient algorithm based on particle swarm optimization (PSO) for the material selection as well as optimization of thickness of multilayered RAS models considering both normal as well as oblique incidence cases. It includes a thorough overview of the theoretical background required for the analysis of multilayered RAS as well as the step-by-step procedure for the implementation of PSO-based algorithm. The accuracy and computational efficiency of the indigenously developed code is also clearly established using relevant validations and case studies. FEATURES Provides step-by-step procedure for the implementation of particle swarm optimization (PSO) based algorithm in the context of multilayered radar absorbing structures (RAS) design Helps to understand the EM design analysis and optimization of multilayered RAS Describes the theoretical background required for the analysis of multilayered RAS Illustrates in detail the theoretical formulation supported by intuitive ray diagrams and comprehensive flowcharts to implement the algorithm with ease Includes elaborate validations and case studies This book will serve as a valuable resource for students researchers scientists and engineers involved in the electromagnetic design and development of multi-layered radar absorbing structures. | Optimization of Multilayered Radar Absorbing Structures (RAS) using Nature Inspired Algorithm

GBP 44.99
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Microwave Propagation and Remote Sensing Atmospheric Influences with Models and Applications

Microwave Propagation and Remote Sensing Atmospheric Influences with Models and Applications

Because prevailing atmospheric/troposcopic conditions greatly influence radio wave propagation above 10 GHz the unguided propagation of microwaves in the neutral atmosphere can directly impact many vital applications in science and engineering. These include transmission of intelligence and radar and radiometric applications used to probe the atmosphere among others. Where most books address either one or the other Microwave Propagation and Remote Sensing: Atmospheric Influences with Models and Applications melds coverage of these two subjects to help readers develop solutions to the problems they present. This reference offers a brief elementary account of microwave propagation through the atmosphere and discusses radiometric applications in the microwave band used to characterize and model atmospheric constituents which is also known as remote sensing. Summarizing the latest research results in the field as well as radiometric models and measurement methods this book covers topics including: Free space propagation Reflection interference polarization and other key aspects of electromagnetic wave propagation Radio refraction and its effects on propagation delay Methodology of estimating water vapor attenuation using radiosonde data Knowledge of rain structures and use of climatological patterns to estimate/measure attenuation of rain snow fog and other prevalent atmospheric particles and human-made substances Dual/multifrequency methodology to deal with the influence of clouds on radiometric attenuation Deployment of microwaves to ascertain various tropospheric conditions Composition and characteristics of the troposphere to help readers fully understand microwave propagation Derived parameters of water free space propagation and conditions and variable constituents such as water vapor and vapor pressure density and ray bending | Microwave Propagation and Remote Sensing Atmospheric Influences with Models and Applications

GBP 74.99
1

Optical Techniques for Solid-State Materials Characterization

Optical Techniques for Solid-State Materials Characterization

Over the last century numerous optical techniques have been developed to characterize materials giving insight into their optical electronic magnetic and structural properties and elucidating such diverse phenomena as high-temperature superconductivity and protein folding. Optical Techniques for Solid-State Materials Characterization provides detailed descriptions of basic and advanced optical techniques commonly used to study materials from the simple to the complex. The book explains how to use these techniques to acquire analyze and interpret data for gaining insight into material properties. With chapters written by pioneering experts in various optical techniques the text first provides background on light–matter interactions semiconductors and metals before discussing linear time-integrated optical experiments for measuring basic material properties such as Fourier transform infrared spectroscopy photoluminescence and Raman scattering. The next section begins with a description of ultrashort pulse generation and carrier dynamics in semiconductors and metals. The book then discusses time-resolved optical techniques such as pump–probe spectroscopy terahertz spectroscopy and magneto-optical spectroscopy. The subsequent section describes spatially resolved optical spectroscopy including conventional optical microscopy and micro-optical and near-field scanning techniques. The book concludes with an overview of more advanced emerging optical techniques such as ultrafast x-ray and electron diffraction ultrafast photoemission spectroscopy and time-resolved optical microscopy. As optical techniques are among the first applied when studying new systems with novel properties the information presented in this comprehensive reference will only grow in importance. By supplying clear detailed explanations of these techniques the book enables researchers to readily implement them and acquire new insights into the materials they study. CRC Press Authors SpeakRohit P. Prasankumar speaks about his book. Watch the Video

GBP 44.99
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Introductory Physics for the Life Sciences: (Volume 2) Quantity-Based Analysis

Introductory Physics for the Life Sciences: (Volume 2) Quantity-Based Analysis

This textbook provides an accessible introduction to physics for undergraduate students in the life sciences including those majoring in all branches of biology biochemistry and psychology and students working on pre-professional programs such as pre-medical pre-dental and physical therapy. The text is geared for the algebra-based physics course often named College Physics in the United States. The order of topics studied in this volume requires students to first understand a concept such as the conservation of energy momentum voltage or current the change in a quantity such as entropy or the rules of ray and wave optics. Then students apply these concepts to solve problems in the areas of thermodynamics electrical circuit optics and atomic and nuclear physics. Throughout the text these quantity-based applications are used to understand systems that are critical to the understanding of biological systems such as the entropy of evolution the signal down the axon of a nerve cell the optics of the eye and the operation of a laser. This is part 2 of a two-volume set; volume 1 introduced students to the methods of mechanics and applied these problem-solving techniques to explicitly biological topics such as the sedimentation rate of red blood cells in haemoglobin the torques and forces on a bacterium employing a flagellum to propel itself through a viscous fluid and the terminal velocity of a protein moving in a gel electrophoresis device. Key features: Organized and centered around analysis techniques not traditional mechanics and E&M Presents a unified approach in a different order meaning that the same laboratories equipment and demonstrations can be used when teaching the course Demonstrates to students that the analysis and concepts they are learning are critical to the understanding of biological systems | Introductory Physics for the Life Sciences: (Volume 2) Quantity-Based Analysis

GBP 52.99
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