Bøger udgivet af Morgan & Claypool Publishers

The first course in software engineering is the most critical. Education must start from an understanding of the heart of software development. This book is an in-depth introduction to software engineering that uses a systematic, universal kernel to teach the essential elements of all software engineering methods.

Holographic dualities are at the forefront of contemporary physics research, peering into the fundamental nature of our universe and providing best attempt answers to humankind's bold questions about basic physical phenomena. This book brings aspects of holography research into the class room.

Provides a concise introduction to both the special theory of relativity and the general theory of relativity. The format is chosen to provide the basis for a single semester course which can take the students all the way from the foundations of special relativity to the core results of general relativity.

Provides a concise treatment of atomic physics and a basis to prepare for work in other disciplines that are underpinned by atomic physics such as chemistry, biology and several aspects of engineering science. The focus is mainly on atomic structure since this is primarily responsible for the physical properties of atoms.

The objective of this book is to collect together the basic science and technology that underlies the Electrostatic Accelerator field so it can serve as a handbook, reference guide and textbook for accelerator engineers as well as students and researchers who work with Electrostatic Accelerators.

Further Applications of Lie Theory.

Introduces methods of THz generation and nonlinear THz spectroscopy in a tutorial way, discusses the relevant theoretical concepts, and presents prototypical, experimental, and theoretical results in condensed matter physics. The potential of nonlinear THz spectroscopy is illustrated by recent research, including an overview of relevant literature.

Describes the ideal magnetohydrodynamic theory for magnetically conned fusion plasmas. Advanced topics are presented in attempting to fill the gap between the up-to-date research developments and plasma physics textbooks.

The concept of drug targeting as a magic bullet has led to research in chemical modification to design and optimize the binding to targeted receptors. This book covers advances based on different drug delivery systems: polymeric and hyper branched nanomaterials, carbon-based nanomaterials, nature-inspired nanomaterials, and pathogen-based carriers.

Examines time-resolved optically stimulated luminescence and is suitable for researchers with an interest in the study of point-defects using luminescence methods. The book first sets the method within the context of luminescence field at large and then provides an overview of the instrumentation used.

Scientists now have a basic blueprint or roadmap of how a single damaged cell can develop into a pre-malignant lesion, a primary tumour, and finally, a lethal tumour that may spread throughout the body and resist both medical therapy and host immune responses. This book provides an overview of our current understanding of this cancer blueprint.

Provides the first authoritative resource on what has become the dominant paradigm for new computer interfaces: user input involving new media (speech, multi-touch, hand and body gestures, facial expressions, writing) embedded in multimodal-multisensor interfaces that often include biosignals.

Provides the first authoritative resource on what has become the dominant paradigm for new computer interfaces: user input involving new media (speech, multi-touch, hand and body gestures, facial expressions, writing) embedded in multimodal-multisensor interfaces that often include biosignals.

Demonstrates Microsoft EXCEL-based Fourier transform of selected physics examples. Spectral density of the auto-regression process is also described in relation to Fourier transform. Readers can also acquire and analyze their own data following the step-by-step procedure explained in the book.

Domain theory, a subject that arose as a response to natural concerns in the semantics of computation, studies ordered sets which possess an unusual amount of mathematical structure. This book explores its connection with quantum information science and the concept that relates them: disorder.

Begins with the history and fundamentals of optical fiber communications. The book then introduces existing optical multiplexing techniques and finally focuses on spatial domain multiplexing (SDM), aka space division multiplexing, and orbital angular momentum of photon based multiplexing.

Discusses a new error concept dispensing with the common practice to randomize unknown systematic errors. Instead, unknown systematic errors are treated as what they physically are - namely as constants being unknown with respect to magnitude and sign.

Computers play an important role in the analyzing and designing of modern DC-DC power converters. This book shows how the widely used analysis techniques of averaging and linearization can be applied to DC-DC converters with the aid of computers. Obtained dynamical equations may then be used for control design.

This book presents simple interdisciplinary stochastic models meant as a gentle introduction to the field of non-equilibrium statistical physics. It focuses on the analysis of two-state models with cooperative effects, which are versatile enough to be applied to many physical and social systems. The book also explores a variety of mathematical techniques to solve the master equations that govern these models: matrix theory, empty-interval methods, mean field theory, a quantum approach, and mapping onto classical Ising models. The models discussed are at the confluence of nanophysics, biology, mathematics, and the social sciences and provide a pedagogical path toward understanding the complex dynamics of particle self-assembly with the tools of statistical physics.

Presents simple interdisciplinary stochastic models meant as a gentle introduction to the field of non-equilibrium statistical physics. The book focuses on the analysis of two-state models with cooperative effects, which are versatile enough to be applied to many physical and social systems.

Contains an extensive illustration of use of the finite difference method in solving the boundary value problem numerically. A wide class of differential equations are numerically solved in this book. Starting with differential equations of elementary functions like hyperbolic, sine and cosine, the book solves special functions such as Hermite.

While every galaxy in the Universe is interesting just by its very fact of being, the author of this book has selected 60 that possess some unusual qualities that make them of particular interest. These galaxies have complex evolutionary histories, with some having supermassive black holes at their core, while others are powerful radio sources.

Provides medical and graduate students, medical and surgical residents, and subspecialty fellows a comprehensive summary of digestive system physiology and addresses the pathophysiological processes that underlie some GI diseases. The textual approach proceeds by organ, allowing the reader to track the food bolus through the GI tract.

In the field of particle and astrophysics, one of the major unresolved problems is to understand the nature and properties of dark matter, which constitutes almost 80% of the matter of the universe. This book gives a pedagogical introduction to the field of dark matter in general, and in particular to the model building perspective.

Offers a short introduction to classical field theory, most suitable for undergraduate students who have had at least intermediate-level courses in electromagnetism and classical mechanics. The main theme of the book is showcasing the role of fields in mediating action-at-a-distance interactions.

Takes the enterprising researcher, student, or hobbyist through explorations in a variety of computing exercises with the physical sciences. The book has tutorials and exercises for a wide range of scientific computing problems.

Describes the physics of particle behaviour in the design, construction, and operation of light sources and colliders. Starting with an outline of the history, uses, and structure of electron storage rings, the book develops the foundations of beam dynamicss. The aim is to emphasize the physics behind key phenomena.

Guides students through some of the trickier areas of theoretical physics. The book moves beyond the initial courses in classical mechanics, special relativity, electromagnetism and quantum theory to more sophisticated views of these subjects and their interdependence. This approach reveals the elegance in each subject discussed.

Contains an account of numerical solutions of differential equations of elementary problems of Physics using Euler and 2nd order Runge-Kutta methods and Mathematica 6.0. The problems are motion under constant force, motion under Hooke's law force, and motion under a combination of Hooke's law force and a velocity dependent damping force.

Offers an introduction to surface science. Surfaces are the external border of materials to the external world. By exploring surfaces one can investigate the material. In the last few decades exciting surface properties have been explored in nanomaterials, low-dimensional structures in electronic and photonic devices and other applications.