Bøker utgitt av Institute of Physics Publishing

Soft Biological Shells in Bioengineering integrates existing experimental data to construct multiscale models of various organs of the human body: the stomach, gravid uterus, urinary bladder, the small intestine and the large intestine. These models are used as in silico platforms to study intricate physiological and pathophysiological processes, and to assess pharmacological modulations on their dynamics. This book will be of value to postgraduate students, researchers and medical doctors interested in computational systems biology.

The advent of charge-coupled devices and the subsequent implementation of ultrawide cameras for large imaging surveys has opened a new window for time-domain astronomy. In this book, our closest neighboring spiral galaxy - the Andromeda galaxy (M31) - is used as an example to walk readers through the ideas and techniques of time-domain analysis. This includes using image subtraction to obtain high quality time-series photometry, determining periods of variables using periodograms and classifying transients and variables based on the shapes of the light curves. It also highlights some science topics to showcase how we can use the time-domain data to shed light on the nature of the transient events and their progenitors.

Extragalactic Novae: A historical perspective takes the reader on a journey chronicling the study of a class of eruptive variable stars known as "Novae Stella", Latin for "New Stars". These mysterious transient objects, now referred to simply as novae, have been recognized since antiquity, suddenly appearing in the night sky before slowly fading back into obscurity. The book The book reviews observations of extragalactic novae beginning with a discussion of their role in the discovery that the spiral nebulae were galaxies similar to the Milky Way, up through their recent contributions to our understanding of close binary star formation across differing stellar populations.

Experimental Particle Physics is written for advanced undergraduate or beginning postgraduate students starting data analysis in experimental particle physics at the Large Hadron Collider (LHC) at CERN. Assuming only a basic knowledge of quantum mechanics and special relativity, the text reviews the current state of affairs in particle physics, before comprehensively introducing all the ingredients that go into an analysis.

As one of the most prominent diseases in our society, Cardio Vascular Disease (CVD) requires dedicated analysis and investigation to reduce the increasing mortality rate worldwide. Scholars, biomedical engineers and medical practitioners will greatly benefit from the detailed information in this book which gives a better understanding of the causes, diagnosis and treatment of CVD.

Gamma-ray Burst Correlations presents an overview of the observational correlations; their physical interpretations, their use as redshift estimators, and their potential use as cosmological tools. The author describes the existing correlations as well as broaching the possible meaning and controversy behind the results of several GRB correlations.

Measurement of values are fundamental in science and technology. Masatoshi's book includes the importance of uncertainty, accuracy and precision of measurement and explains how laser technology has helped improve measurement and in redefining standards. SI units, standards and the importance of lasers for measurement in modern metrology are covered, including the redefinition of the SI units over time.

Commencing by defining a set of standards for benchmarkingthis book then proceeds to provide a review of the physics and workings of several optical and super optical biosensors, and introduces two more superoptical biosensors. Mathcad is used to analyse these virtual biosensors andthese codes and available to readers for use in their own research.

Lasers in Medical Diagnosis and Therapy: Basics, applications and future prospects provides an overview on medical lasers and laser systems as well as laser applications in medical diagnosis and therapy. Since it was written by physicists, it focusses on the physics and underlying mechanisms of laser diagnosis and therapy.

This book is essential reading for medical physicists in radiation protection, diagnostic radiology and nuclear medicine, as well as radiographers and technologists, due to changes in global dosimetry requirements. Additionally, it presents guidelines for medical physicists and others using radiation.

This book concerns precise measurements and their inherent uncertainty,with an emphasis on time and frequency measurement. Improvements in theaccurate measurement of time and frequency play a pivotal role in thedevelopment of modern science and our questioning of the fundamentals ofour universe.

This book serves as an excellent stepping stone from introductory physics to graduate-level physics, it provides a level field for the various techniques used to solve problems in classical mechanics, it explains the Lagrangian and Hamiltonian methods more simply, and is a must for junior and senior physics undergraduates.

This book presents, in a concise and direct manner the appropriate mathematical formalism and fundamentals of differential topology and differential geometry together with their applications to many branches of physics.

Creating the Molecules of Life discusses origins, including the Big Bang, and the origin of the elements. With a complete presentation and explanation, this book provides evidence that the molecules of life are produced in outer space and how the SNAAP model purports to explain that origin. Extremophiles, which explains that evolution is robust enough to create life forms in a wide variety of conditions, is also presented. Readable for those at the upper undergraduate level, mathematics associated with coupling the nuclear spins to the molecular chirality is discussed. An accompanied appendix is provided to support mathematics.

Hubble Deep Field and the Distant Universe describes this watershed event in the history of astronomy. Aimed at an audience including amateur astronomers, science historians, researchers, Hubble Space Telescope aficionados and students interested in science, this book recounts the development of space astronomy, the progression of decisions and events that led to the distant universe exploration of Robert Williams and the Hubble Deep Field team, and it describes the momentous image that has enabled astronomers to piece together the evolution of the largest structures in the universe.

This revised second edition is improved linguistically with multiple increases of the number of figures and the inclusion of several novel chapters such as actin filaments during matrix invasion, microtubuli during migration and matrix invasion, nuclear deformability during migration and matrix invasion, and the active role of the tumor stroma in regulating cell invasion.

Ultrasound-mediated imaging in scattering media has deep roots in condensed matter physics. This book explores these roots and provides a comprehensive review of imaging with light and ultrasound, focusing mainly on recovery of mechanical contrasts. It is suitable reference material for graduate students and practitioners in the field.

This graduate-level book explains how the spectroscopic probes, which examine excitations in various phases of matter, are modeled within the quantum theory and how their outcome is interpreted as the collective response of many interacting particles in thermal equilibrium. Practical examples are accompanied by computer codes to support the presentation.

Written for postgraduate students as a pedagogical introduction to string theory. Extending beyond an introductory review of the subject, it encompasses key analytical and numerical tools, as well as useful physical models in applications. The book is augmented with numerous codes in addition to problems and exercises.

Offering fresh insight into a rapidly growing field, Wearable Communication Systems and Antennas for Commercial, Sport and Medical Applications provides useful information for students, engineers and researchers with an interest in wearable communication devices and antennas.

As fascinating and unexplainable as the universe appears to be, there are also an incredible amount of similarities between the universe and the everyday world and we are constantly evolving to discover more about these incredible parallels as this book unveils. For those with a fascination in the world around us, as well as undergraduate and graduate students, researchers and anyone who wishes to gain better physical insight of the discussed phenomena, this book offers a simplified approach to the beautiful world around us.

Non-instantaneous impulsive differential equations are widely used in physics, biology, dynamics and ecology and have a wide-ranging scope within the scientific industry. This book will help pave the way for a better fundamental understanding of the mathematical models and how they can be implemented.

This book presents singular optics in a gradual and systematic manner and bridges the gap between a seasoned researcher and a student who aims to pursue research in this topic. The book includes illustrations, examples and references that will enable the reader to conceive their own ideas as they discover more about singular optics.

The popular conception of science is of a steady, upward climb of progress. The reality is not that simple. Highly significant discoveries often stay unrecognized for decades, particularly if they conflict with the current paradigm or extend it in ways hard to imagine at the time. Ahead of the Curve: Hidden breakthroughs in the biosciences is a fascinating collection of lost research that the editors believe are important scientific contributions.

This book is describes Wigner functions and its applications in various fields of science where it has been found to be very useful in wide range of modern disciplines, including quantum information, coherent optics, and superconducting qubits.

Hypersonic Meteoroid Entry Physics gives an overview of meteoroid atmospheric entry. It includes meteoroid observation in the outer space, the recovery of meteors on the earth surface and meteorite chemical analysis. For astrophysicists and aerospace engineering communities, this book will deliver a comprehensive overview of meteoroid atmospheric entry.

Electromechanical Machinery Theory and Performance presents a detailed explanation of electromagnetic machines, giving specific focus on transformers and AC rotating machines that can be used in the preservation and transference of energy and power. This book is developed for students at both graduate and undergraduate level, and can be used by practicing engineers as well.

This book aims to teach students, instructors and professionals the basis of optical techniques for biomedical investigation. It is a text for researchers active at the interface between biology, medicine and optics. With the format of a classical textbook, this work contains the underlying theory of biological optics and applications to real laboratory problems, via exercises and homework.

Elliptical Mirrors: Applications in microscopy discusses the importance of the elliptical mirror; the third solution after parabolic reflectors and lenses for which apodization factors were established in 1921 and 1959 respectively. This detailed and highly insightful book will be an important reference in a growing subject area that will benefit PhD students, optical physicists, metrologists and researchers.