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Regenerative biology and medicine is a rapidly developing field that can revolutionize medicine. This book introduces the essentials of regenerative biology and medicine to advanced undergraduates and beginning graduate students, as well as students and professionals outside the field who need (and want) an introduction to the subject.

Lens Design: Automatic and quasi-autonomous computational methods and techniques is the first book that interactively describes the newest lens design tools. Detailing design methods for a variety of lens forms, this book shows that fixed focus and zoom lenses can be optimized, and it will help experienced and aspiring lens designers to develop excellent designs henceforth.

This book presents a coherent formulation of all aspects of thermodynamics and statistical mechanics with entropy as the unifying theme. By consolidating these approaches into a coherent and self-contained framework, it is intended to improve the understanding of this fundamental and fascinating area of physics.

Magnetic Nanoparticles for Medical Diagnostics aims to encourage members of the medical profession to join experts from other fields of research in exploring the unique physical properties of magnetic nanoparticles for medical applications.

Aimed at researchers and practitioners in optics, medical research and photochemical industries, this book provides exciting and comprehensive insight into the world of organic dyes and lasers with chapters that explore optogenetics, organic laser medicine and quantum communications.

Gamma-ray bursts cover various areas of astronomy and interest in them reaches a wide range of fields. The science behind them is rapidly moving and this book examines the knowledge that we now have as well as the questions that are continually being raised. Predominantly aimed at PhD students and researchers in the area, Gamma-Ray Bursts addresses this fascinating topic and outlines the principles and initial applications of a fascinating astronomical phenomena.

Generalized Hypergeometric Functions explores the way in which hypergeometric functions are interlinked with special functions, and it uses group theory to illustrate these relationships. The application of group theory to the study of special functions is a relatively new approach to the subject area. It is a departure from most of the standard text books, which deal with the special functions as disjointed chapters, with each chapter dealing with the properties of the given special function.

In 1947, it was discovered that multiple scattering theory (MST) can be used to solve the Schröedinger equation for the stationary states of electrons in a solid. Written by experts in the field, J S Faulkner, G Malcolm Stocks and Yang Wang, this book collates the results of numerous studies in the field of MST and provides a comprehensive, systematic approach to it. For many scientists, students and engineers working with multiple scattering programmes, this will be a useful guide to help expand the existing knowledge of MST as well as understanding its future implications.

New image-processing tools and data-processing network systems have considerably increased the volume of transmitted information such as 2D and 3D images with high resolution. This book explores alternatives and research that is converging towards optical/numerical hybrid solutions for high-volume signal and image processing and transmission.

Energy Density Functional Methods for Atomic Nuclei provides a thorough and updated presentation of energy density functional (EDF) techniques in atomic nuclei. Incorporating detailed derivations, practical approaches, examples and figures, a coherent narrative of topics that have hitherto rarely been covered together is provided.

Inverse Imaging with Poisson Data is an invaluable resource for graduate students, postdocs and researchers interested in the application of inverse problems to the domains of applied sciences, such as microscopy, medical imaging and astronomy.

Quantum Mechanics: Problems with Solutions contains detailed model solutions to the exercise problems formulated in the companion Lecture Notes volume. In many cases, the solutions include result discussions that enhance the lecture material. For reader's convenience, the problem assignments are reproduced in this volume.

Quantum Mechanics: Lecture Notes, is intended to be the basis for a one-semester graduate-level course

Liquid crystals are beautiful and their science is intriguing. This book will take you on a photographic tour of the visual diversity of liquid crystals and describes, for a general audience, their role in technology and biology.

This book provides a review of the history and technologies in the development of computational small animal models, with a focus on their application in preclinical imaging, radiation therapy and dosimetry calculations. It provides an overview of model design of computational models, identification of anatomical data, the tools used for solving problems and animal model application in preclinical research.

This advanced level textbook approaches the world of statistical physics from the point of view of simple models suitable for numerical realization. Theory is presented and backed up with simulations results and provisions made for students to develop and implement their own simulations to transfer the theory of molecular simulations into computational models. The text is further extended with video results and includes numerous problems with solutions.

Anthropomorphic Phantoms in Image Quality and Patient Dose Optimization: A EUTEMPE Network book is invaluable for medical physicists and biomedical engineers, and it is unique in its form and content. The book focuses on the practical applications of anthropomorphic phantoms for research and educational purposes, and includes tutorials and self-training examples.

Astrophysical Recipes: The art of AMUSE delves into the ways in which computational science and astrophysics are connected and how the bridge between observation and theory are understood. This book provides a unique outline of the basic principles of performing simulations for astrophysical phenomena, in order to better increase and understand these observations and theories.

Animal biotechnology is a broad field including polarities of fundamental and applied research, as well as DNA science, covering key topics of DNA studies and its recent applications. In Introduction to Pharmaceutical Biotechnology, DNA isolation procedures followed by molecular markers and screening methods of the genomic library are explained. Interesting areas like isolation, sequencing and synthesis of genes, with the broader coverage on synthesis of genes, are also described. The book begins with an introduction to biotechnology and its main branches, explaining both the basic science and the applications of biotechnology-derived pharmaceuticals, with special emphasis on their clinical use. It then moves on to historical development and scope of biotechnology with an overall review of early applications that scientists employed long before the field was defined.

Animal biotechnology is a broad field including polarities of fundamental and applied research, as well as DNA science, covering key topics of DNA studies and its recent applications. In Introduction to Pharmaceutical Biotechnology, DNA isolation procedures followed by molecular markers and screening methods of the genomic library are explained.

Modeling and Analysis of Eclipsing Binary Stars provides a comprehensive review of the physical and observational aspects of eclipsing binaries, and the modeling code, PHOEBE (PHysics Of Eclipsing BinariEs), that is used by a large number of researchers in this field. Aimed at students, researchers and astronomers, this book is the foundation of knowledge for eclipsing binaries and their subsequent modeling.

Biomechanical Modeling of the Cardiovascular System brings together the challenges and experiences of academic scientists, leading engineers, industry researchers and students to enable them to analyse results of all aspects of biomechanics and biomedical engineering. It also provides a springboard to discuss the practical challenges and to propose solutions on this complex subject.

Separation of variables methods for solving partial differential equations are of immense theoretical and practical importance in mathematical physics. They are the most powerful tool known for obtaining explicit solutions of the partial differential equations of mathematical physics. The purpose of this book is to give an up-to-date presentation of the theory of separation of variables and its relation to superintegrability. Collating and presenting in a unified, updated and a more accessible manner the results scattered in the literature the authors have prepared an invaluable resource for mathematicians and mathematical physicists in particular, as well as science, engineering, geological and biological researchers interested in explicit solutions.

This book reviews the magnetic quantization phenomena in emerging low-D materials and develops the tight-binding model in application to quantitization phenomena in 2D materials. The origins of the phenomena are discussed in depth, particularly focusing on graphene, tinene, phosphorene and MoS2, with a broader model also drawn.

With introductory material to make the subject area accessible to non-specialists such as graduate and PhD students, and researchers working in other areas where extreme waves are relevant, this book features contributions by prominent scientists in this emerging field and is a comprehensive treatment of optical extreme wave research.

This volume, Classical Mechanics: Problems with solutions contains detailed model solutions to the exercise problems formulated in the companion Lecture notes volume. In many cases, the solutions include result discussions that enhance the lecture material. For the reader's convenience, the problem assignments are reproduced in this volume.

Classical Mechanics: Lecture Notes, is intended to be the basis for a one-semester graduate-level course on classical mechanics and dynamics, including the mechanics of continua, in particular deformations, elasticity, waves, and fluid dynamics.

This book, stemming from a conference on the history of units organised by the editors, provides a detailed and discursive examination of the history of units within physics, in advance of the proposed redefinition of the SI base units at the General Conference on Weights and Measures in 2018.