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This book is a compilation of articles that span more than 30 years of research on developing comprehensive physical models that describe the physical properties of quantum wires.
This book introduces acoustic wave theories using a reader-friendly matrix-based linear algebra approach. It will enable the reader to take advantage of software tools such as MATLAB (commercial codes) and OCTAVE (open-source codes) to gain better and deeper understanding of the underlying physics quickly. In this aspect, this text can be regarded as a practical introduction of the acoustic wave theories in an easy-to-follow linear algebra format using matrix manipulations instead of an abstract approach relying on tensor manipulations. The book also uses case studies to demonstrate how the fundamentals on acoustic waves discussed throughout the book are applied in device designs and analyses such that the connections and interdependences between the underlying sciences and the observed behavior and performances can be better appreciated by the reader. To achieve this, all problems for illustrations, examples, case studies, and device analyses are developed and solved based on the mathematical foundations laid out in the book.
This volume brings together 18 experts with diverse backgrounds and expertise from around the globe to tackle climate change from multiple angles.
This book describes the ultra-short laser-matter interactions from the subtle atomic motion to the generation of extreme pressures inside the bulk of a transparent crystal. It is the successor to Femtosecond Laser-Matter Interactions: Theory, Experiment and Applications (2011). Explanation and experimental verification of the exceptional technique for the phase transformations under high pressure are in the core of the book. The novel phase formation occurs along the unique solid-plasmasolid transformation path: the memory of the initial state is lost after conversion to plasma. New phase forms from chaos during the cooling to the ambient. The pressure-affected material remains detained inside a pristine crystal at the laboratory tabletop. Unique super-dense aluminium and new phases of silicon were created by the confined micro-explosions. The text also describes the recent studies that used the quasi-non-diffracting Bessel beams. The applications comprise the new high-pressure material formation and micromachining. The book is an appealing source for readers interested in the cutting-edge research exploring extreme conditions and creating nanostructures at the laboratory tabletop.
This book provides a comprehensive overview of this rapidly-evolving field including tumor stroma biology, therapeutic targets, molecular imaging, and advanced tumor stroma in vitro models.
Biophysics is a new way of looking at living matter. It uses quantitative experimental and theoretical methods to open a new window for studying and understanding life processes.This textbook gives compact introductions to the basics of the field, including molecular cell biology and statistical physics. It then presents in-depth discussions of mor
This book features first-hand experience, case studies and interviews with key strategic players to illustrate how Manchester has built a unique model of collaboration with industry to create an ecosystem of a supply chain of companies producing graphene material and starting to disrupt the marketplace with new products and application.
This handbook covers medical device regulatory systems in different countries, ISO standards for medical devices, clinical trial and regulatory requirements, and documentation for application.
There is growing recognition and understanding of music's fundamentally spatial natures, with significances of space found both in the immediacy of musical practices and in connection to broader identities and ideas around music. Whereas previous publications have looked at connections between music and space through singular lenses (such as how they are linked to ethnic identities or how musical images of a city are constructed), this book sets out to explore intersections between multiple scales and kinds of musical spaces. It complements the investigation of broader power structures and place-based identities by a detailed focus on the moments of music-making and musical environments, revealing the mutual shaping of these levels. The book overcomes a Eurocentric focus on a typically narrow range of musics (especially European and North American classical and popular forms) with case studies on a diverse set of genres and global contexts, inspiring a range of ethnographic, text-based, historical, and practice-based approaches.
Volumes 1 and 2 in this series are focused on current issues in basic medical science, subjects that are fundamental to the practice of medicine. These basic medical science subjects are traditionally taught in the first two years of medical school that precede clinical instruction and training.
In petroleum refineries, although there are sets of standard operating procedures to operate the plants, unique problems often arise, which need to be tackled with engineering knowledge and experience without much loss of energy and time. This process is termed 'troubleshooting', and it saves production loss, leading to profitability and sustainability of the refinery operation.This book covers the ins and outs of troubleshooting in petroleum refineries, with an analysis of the problems faced, the fundamentals behind them and logical reasoning and illustrations to solve the problems, along with lessons learnt. This is the first such book on the market since the publication of one by Norman P. Lieberman about 30 years ago, and there has been a massive change in technology since then. This book will not only enlighten practicing engineers in refineries and postgraduate students but also facilitate the creation of a knowledge bank on troubleshooting case studies, helping share engineering knowledge and experiences.
The pace and sophistication of advances in medicine in the past two decades have necessitated a growing need for a comprehensive reference that highlights current issues in medicine. Each volume in the Current Issues in Medicine series is a standalone text that provides a broad survey of various critical topics-all accomplished in a user-friendly yet interconnected format. The series not only highlights current advances but also explores related topics such as translational medicine, regulatory science, neglected diseases, global pandemics, patent law, immunotoxicology, theranostics, big data, artificial intelligence, novel imaging tools, combination drug products, and novel therapies. While bridging the gap between basic research and clinical medicine, this series provides a thorough understanding of medicine's potential to address health problems from both the patient's and the provider's perspectives in a healthcare setting. The range of topics covered and the expertise of the contributing authors accurately reflect the rapidly evolving areas within medicine-from basic medical sciences to clinical specialties. Each volume is essential reading for physicians, medical students, nurses, fellows, residents, undergraduate and graduate students, educators, policymakers, and biomedical researchers. The multidisciplinary approach of the series makes it a valuable reference resource for the pharmaceutical industry, academia, and governments. However, unlike other series on medicine or medical textbooks, this series focuses on current trends, perspectives, and issues in medicine that are central to healthcare delivery in the 21st century. Volume 1 focuses on the current issues in basic medical sciences, subjects that are fundamental to the practice of medicine. Specifically, it covers medical biochemistry, genomics, physiology, and pathology. These subjects, traditionally taught in the first two years of medical school that precede clinical instruction, provide a core of basic knowledge critical to the success in clinical medicine during rotations, training, and medical practice.
Therapies for regenerating damaged tissue and organs have been attracting much attention. In order to efficiently regenerate the functions of living tissue and organs, diverse attempts have been made to utilize scaffolds to "e;mold"e; artificial tissue structures. However, the structural complexity of reconstituted tissue is limited by the mechanical precision of scaffolds, which still cause problems arising from their degradation, immunogenic reactions, and so forth. It is also being realized that ultimately the best approach might be to rely on the innate self-organizing properties of cells and the regenerative capability of the organism itself.This book investigates the 3D-pattern formation and evolution mechanism in multipotent cells embedded in 3D semi-synthetic hydrogels and the control methodology for self-organized patterns. The authors theoretically and experimentally demonstrate several types of topological 3D-pattern formation by cells in a 3D matrix in vitro, which can be modeled and predicted by mathematical models based on the reaction-diffusion dynamics of various chemical, physical, and mechanical cues. The study, focused on the 3D pattern formation of cells, provides (i) a unique perspective for understanding the self-organized 3D tissue structures based on Turing instability, (ii) the scheme for rationally controlling the cellular self-organization via exogenous factors or tailored inner interfaces inside hydrogels, and (iii) the elaborate and sophisticated regulating method for tuning collective cellular behaviors in 3D matrices.
The main focus of this book is to provide a brief guide regarding the cause and solution to academic bullying.
This book covers fabrication of vanadium dioxide-based smart windows, discusses various strategies to enhance their performance, and shares perspectives from the top scientists in this particular field.
Currently, the reliance on fossil fuels raises concerns on the increasing global energy demand, the rapid anthropogenic climate changes and growing environmental problems. The grand challenge is to search for viable carbon-neutral sources of renewable energy. Nanomaterials are arguably the base that integrates nanotechnology, information technology, and biotechnology; the major drivers of technological development today. Over the past decades, the understanding of form-function relations surrounding nanomaterials has significantly brightened the prospects of the transition from fossil fuels to solar fuels.This book introduces the latest developments in nanomaterials aimed at the applications in clean energy areas. It overviews the close link between nanomaterials development and energy applications from the experience and perspective of the authors. It discusses the bottom-up synthesis and interface engineering of new materials of different dimensions and describes their applications in future energy devices such as secondary batteries, novel solar cells, luminescent devices, and water splitting electrolyzers..
This book is a compilation of articles that span 20 years of research on comprehensive physical models developed by their authors to understand the detailed properties of these quantum objects, and to tailor them for specific applications.
This book discusses the production, characterization, regulation, and currently marketed targeted nanoparticle systems in a broad framework.
This book contains a host of original articles from contributory authors all around the world, showing the evolution of the hip joint till the present day, building upon the solid foundation set by the first edition.
At the end of 2019, the world came across a virus, SARS-CoV-2, which causes a disease classified as COVID-19. The virus is highly transmissible and causes an acute respiratory syndrome that ranges from mild symptoms in about 80% cases to very severe symptoms with respiratory failure in 5% to 10% of cases. The epicenter of the outbreak of this pandemic was Wuhan, a city in China's Hubei Province. The World Health Organization has declared the outbreak of COVID-19 to be a pandemic and classified it as a high global risk. Human health risk assessment for COVID-19 depends on the characteristics of the virus and includes the process of gathering and analyzing environmental and health information using specific techniques to support decision making, systematically taking actions, and articulating the collected information within and between sectors for promoting health and improving the social and living conditions of populations. To assess COVID-19 risk factors, it is important to consider and document all relevant information available at the time of assessment. In this way, decision making will get a direction and the assessment process will get recorded, which includes evaluation of the risk factors, control measures, methods used for evaluation, why they were considered important, and their order of priority. This book addresses in detail the challenges posed by the virus and presents up-to-date knowledge on safety risk assessment and economics, as well as ethical, legal, and social implications (ELSI) of COVID-19.
This is the first book on Ultrafine Bubbles (UFBs) and it reviews researches done on them, which will be helpful for readers and researchers interested in the fundamentals of this emerging field and its applications, including cleaning, biological, medical, and dental application of ozone ultrafine bubble water.
This book describes recent progress of researches on nanocarbon field electron emitters ranging from fundamental properties to promising applications, e.g., X-ray sources, vacuum electronic devices, space thrusters and so on.
This book presents the latest global achievements in the processing and applications of high-Tc superconductors and discusses the usefulness of the SDGs. It summarizes the related advances in materials science and developments with respect to the SDGs.
For the past three decades, nanoscale science and engineering have provided many systems with unique and unprecedented properties, illustrating that these will definitely determine the trajectory of science and technology for years to come. This book is the first textbook to introduce nanoscale systems in a pedagogical, and not research, style. Through ample examples and problems, it emphasizes the difference between bulk and nanoscale systems from a thermodynamic viewpoint and illustrates the process when a bulk system enters the nanoscale domain. It also brings together results of state-of-the-art research and provides the reader with the scientific foundations of such results. It introduces the fundamental thermodynamic treatment of nanoscale systems as well as the structure, properties, and performance of the three different types of fullerenes, namely, spherical, cylindrical, and planar or graphene. In addition, it discusses 2-D materials systems based on such building blocks. Finally, it shows the thermodynamic criteria allowing nanoscale performance in physically huge systems.
This book provides a complete, self-consistent, and open system for studying physics problems, which not only provides high-quality teaching materials for the field of physics education (especially for physics Olympiad training) but also points out a new direction for physics education.
This book presents selected topics on nanotechnological applications in the strategic sector of space. It showcases some current activities and multidisciplinary approaches that have given an unprecedented control of matter at the nanoscale and will enable it to withstand the unique space environment. It focuses on the outstanding topic of dual-use nanotechnologies, illustrating the mutual benefits of key enabling materials that can be used successfully both on earth and in space. It highlights the importance of space as a strategic sector in the global economy, with ever-increasing related businesses worldwide. In this light, it dedicates a chapter to the analysis of current and future markets for space-related nanotechnological products and applications.
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