Sponsored by the U.S. Air Force Office of Scientific Research, this conference was held in Niagara Falls on July 6–9, 1981. This book includes material on the following topics: instrumentation and diagnostics, shock tube facilities and techniques, gas dynamic experiments, heat transfer and real gas effects, boundary layers, shock structure, shock propagation, laser and spectral optical studies, chem and kinetics, relaxation and excitation, ionization, dusty gases, two-phase flow and condensation, shock waves in the environment and energy, and energy-related processes. The book contains a total of 98 papers by well-known specialists.
Our goal in writing this book was to fill a perceived gap in the early experi ence literature. Most existing volumes on early experience and development can be dichotomized on a basic versus an applied dimension. Volumes falling on the basic side are designed for researchers and theoreticians in the biomed ical and behavioral sciences. Most existing basic volumes are either primarily based on infrahuman data or are based on single major human studies. In going over these volumes, we are not convinced of the generality of infrahu man data to the human level; in addition, we were concerned about the replicability of findings from single studies, however well designed these studies were. As a result, the relevance of data from these volumes to applied human problems is quite limited. In contrast, volumes falling on the applied side are designed primarily for those involved in intervention work with infants and young children. These applied books generally tend to be vague and nonempirical compilations of the views of experts and the collective "wisdom of the ages. " Rarely in applied volumes do we find conclusions based on solid, consistent, empirical findings.
In recent years there has been growing interest in the nucleon-nucleon correl ations inside nuclei. In many respects the motions of the nucleons can be very well described by an overall mean field, so that the motion of each nucleon is governed by the mean field due to all the other nucleons. This concept underlies the Fermi-gas, Hartree-Fock and shell models and has enabled a range of nuclear properties to be calculated, often to surprising accuracy. It gradually became clear, however, that these mean-field models are limited by the effects due to the very strong interactions between the nucleons that occur at short distances; these are the short-range correlations. They are responsible for instance for the high-momentum components in the nucleon momentum dis tribution, and prevent the simultaneous description of the nuclear density and momentum distributions by the same mean field. It thus becomes necessary to develop methods for including the effects of nucleon correlations in nuclei, and these are the main subject of this book. Some related problems of nuclear structure were discussed in an earlier book by the same authors: Nucleon Momentum and Density Distributions in Nuclei (Clarendon Press, Oxford, 1988). The main aim of that book was to study the effects of nucleon-nucleon correlations, both short-range and tensor, on the nucleon momentum distribution, which is particularly sensitive to these correl ations, and on the nucleon density distribution.
Pastors play a fundamental role in churches across the globe, yet more and more are finding themselves struggling with the stress of ministry life and experiencing burnout. The consequences of pastoral burnout can be severe and impact not only individuals’ physical, mental, and emotional well-being, but spillover to their families and congregations as well. Despite this increasingly common problem, the subject of pastors and their unique experiences has not been well studied. Caring for our Shepherds is written to pastors and for pastors. In this book, researchers on pastoral burnout, Thomas V. Frederick, Yvonne Thai, and Scott Dunbar answer the questions: what is pastoral or ministry burnout, how can it be guarded against, and how can we help those experiencing it? The reader will not only develop a deeper understanding for the demands of ministry, but also be provided with specific practical and spiritual frameworks to cope with those demands in ways that promote a positive and healthy mindset. Caring for our Shepherds is an excellent resource not only for those in ministry, but to those who desire to pour back into those who serve in the church.
A definitive reference, completely updated Published in 1989, the First Edition of this book, originally entitled Quadrupole Storage Mass Spectrometry, quickly became the definitive reference in analytical laboratories worldwide. Revised to reflect scientific and technological advances and new applications in the field, the Second Edition includes new chapters covering: * New ion trap instruments of high sensitivity * Peptide analysis by liquid chromatography/ion trap tandem mass spectrometry * Analytical aspects of ion trap mass spectrometry combined with gas chromatography * Simulation of ion trajectories in the ion trap One additional chapter discusses the Rosetta mission, a "comet chaser" that was sent on a ten-year journey in 2004 to study the comet Churyumov-Gerasimenko using, among other instruments, a GC/MS system incorporating a specially designed ion trap mass spectrometer. This comprehensive reference also includes discussions of the history of the quadrupole ion trap, the theory of quadrupole mass spectrometry, the dynamics of ion-trapping chemistry in the quadrupole ion trap, the cylindrical ion trap, miniature traps, and linear ion traps. Complete with conclusions and references, this primer effectively encapsulates the body of knowledge on quadrupole ion trap mass spectrometry. With its concise descriptions of the theory of ion motion and the principles of operation, Quadrupole Ion Trap Mass Spectrometry, Second Edition is ideal for new users of quadrupole devices, as well as for scientists, researchers, and graduate and post-doctoral students working in analytical laboratories.
Electromagnetic surface modes are present at all surfaces and interfaces between material of different dielectric properties. These modes have very important effects on numerous physical quantities: adhesion, capillary force, step formation and crystal growth, the Casimir effect etc. They cause surface tension and wetting and they give rise to forces which are important e.g. for the stability of colloids. This book is a useful and elegant approach to the topic, showing how the concept of electromagnetic modes can be developed as a unifying theme for a range of condensed matter physics. The author concentrates in finding out the basic origin of the force and how they are developed from the collective excitations of the solids. Different materials are treated, e.g. metals, semiconductors, plasmas, liquids and gases all with different collective modes. In close relation to the theoretical background, the reader is served with a broad field of applications. The book serves readers who are concerned with applications to real world problems with a deep knowledge on surface modes, and inspires new developments of the field.
An understanding of statistical thermodynamic molecular theory is fundamental to the appreciation of molecular solutions. This complex subject has been simplified by the authors with down-to-earth presentations of molecular theory. Using the potential distribution theorem (PDT) as the basis, the text provides a discussion of practical theories in conjunction with simulation results. The authors discuss the field in a concise and simple manner, illustrating the text with useful models of solution thermodynamics and numerous exercises. Modern quasi-chemical theories that permit statistical thermodynamic properties to be studied on the basis of electronic structure calculations are given extended development, as is the testing of those theoretical results with ab initio molecular dynamics simulations. The book is intended for students taking up research problems of molecular science in chemistry, chemical engineering, biochemistry, pharmaceutical chemistry, nanotechnology and biotechnology.
A unique resource for physicists and engineers working with magnetic fields An understanding of magnetic phenomena is essential for anyone working on the practical application of electromagnetic theory. Magnetic Fields: A Comprehensive Theoretical Treatise for Practical Use provides physicists and engineers with a thorough treatment of the magnetic aspects of classical electromagnetic theory, focusing on key issues and problems arising in the generation and application of magnetic fields. From magnetic potentials and diffusion phenomena to magnetohydrodynamics and properties of matter-topics are carefully selected for their relevance to the theoretical framework as well as current technologies. Outstanding in its organization, clarity, and scope, Magnetic Fields: * Examines a wide range of practical problems, from magnetomechanical devices to magnetic acceleration mechanisms * Opens each chapter with reference to pertinent engineering examples * Provides sufficient detail enabling readers to follow the derivation of the results * Discusses solution methods and their application to different problems * Includes more than 300 graphs, 40 tables, 2,000 numbered formulas, and extensive references to the professional literature * Reviews the essential mathematics in the appendices
In this book, some of the principal investigators of the phenomena have reviewed their successes. The contributions include an overview of the field by H Suhl, followed by a detailed review of the high-power response of magnetic materials. Following that chapter, a number of authors review the phenomena for a variety of magnetic materials and pumping configurations.In the final chapter, evidence of another nonlinear effect is reviewed. Using a pulsed driving field, it is possible to excite a travelling spin wave. The nonlinear contributions will give rise to a ?bunching? effect which compensates for the dispersive effects to produce a shape-preserving traveling wave pulse known as solitons.Ordered magnetic materials have provided a rich source for the investigation of nonlinear phenomena. These investigations have contributed much to our knowledge of the behavior of chaotic systems, as well as to a better understanding of the high-power response of the magnetic materials themselves.
This book provides an up-to-date summary of the large body of data regarding gastrointestinal hormones and growth factors involved in the development and maintenance of the architecture and physiological functions of the different organs of the digestive tract. The regulation of growth and differentiation in the stomach, small intestine, colon, and pancreas is reviewed by experts in developmental and adult physiology, as well as in pathophysiology of diseases involving each organ. The book provides essential reference material for gastroenterologists, medical and university libraries, and investigators and graduate students of gastrointestinal physiology.
This book is a collection of talks presented at the International Symposium on Exotic Nuclei, held at Lake Baikal, Russia, on 24 - 28 July 2001. The talks were given by the leading scientists in the physics of exotic nuclei.Among the topics of the Symposium were the following: production and study of properties of nuclei in extreme states, strongly deformed nuclei, highly excited nuclei and nuclei far from the line of stability as well as nuclei having large angular momenta.New results of investigations are presented in the book ? in particular, the data on new nuclei with proton or neutron haloes, on the changes in the shell structure of nuclei near the drip lines, and on the structure of exotic nuclei, including information on the island of inversion. The latest results on the synthesis of new superheavy elements are also provided, and existing detecting devices and accelerators of exotic nuclei, as well as future projects for the creation of similar set-ups, are presented.
This is the first book to classify and systematize the available data on the behavior of binary alloys under high pressure. Despite the fact that there is a strong correlation between temperature-composition (T-C) phase diagrams at normal pressure and three- dimensional temperature-composition-pressure (T-C-P) diagrams, many material scientists seldom refer to the (T-C-P) diagrams, just as many high pressure researchers often ignore the data obtained at normal pressure. This book aims to bridge the gap between data obtained at high pressure and that obtained at normal pressure. The most recent research covers not only elements and stoichiometric compounds, but also binary, ternary, and multicomponent alloys, and so this book covers an extended range of substances. The properties of 890 binary systems and a further 1153 pseudobinary and ternary systems are summarized, and accompanied by an extensive bibliography. The data includes information on the solubility of components in solid solutions, melting, and first- and second-order phase transformations in alloys and stoichiometric compounds.
In order to equip hopeful graduate students with the knowledge necessary to pass the qualifying examination, the authors have assembled and solved standard and original problems from major American universities – Boston University, University of Chicago, University of Colorado at Boulder, Columbia, University of Maryland, University of Michigan, Michigan State, Michigan Tech, MIT, Princeton, Rutgers, Stanford, Stony Brook, University of Wisconsin at Madison – and Moscow Institute of Physics and Technology. A wide range of material is covered and comparisons are made between similar problems of different schools to provide the student with enough information to feel comfortable and confident at the exam. Guide to Physics Problems is published in two volumes: this book, Part 1, covers Mechanics, Relativity and Electrodynamics; Part 2 covers Thermodynamics, Statistical Mechanics and Quantum Mechanics. Praise for A Guide to Physics Problems: Part 1: Mechanics, Relativity, and Electrodynamics: "Sidney Cahn and Boris Nadgorny have energetically collected and presented solutions to about 140 problems from the exams at many universities in the United States and one university in Russia, the Moscow Institute of Physics and Technology. Some of the problems are quite easy, others are quite tough; some are routine, others ingenious." (From the Foreword by C. N. Yang, Nobelist in Physics, 1957) "Generations of graduate students will be grateful for its existence as they prepare for this major hurdle in their careers." (R. Shankar, Yale University) "The publication of the volume should be of great help to future candidates who must pass this type of exam." (J. Robert Schrieffer, Nobelist in Physics, 1972) "I was positively impressed ... The book will be useful to students who are studying for their examinations and to faculty who are searching for appropriate problems." (M. L. Cohen, University of California at Berkeley) "If a student understands how to solve these problems, they have gone a long way toward mastering the subject matter." (Martin Olsson, University of Wisconsin at Madison) "This book will become a necessary study guide for graduate students while they prepare for their Ph.D. examination. It will become equally useful for the faculty who write the questions." (G. D. Mahan, University of Tennessee at Knoxville)
This book is devoted primarily to the various kinds of resonant nonlinear in teractions of light with two-level (or, in many cases, multilevel) systems. The interactions can involve one-photon as well as multiphoton processes in which some combinations of frequencies of participating photons are close to tran sitions of atoms or molecules (e.g., we consider stimulated Raman scattering (SRS) as a resonant interaction). This approach involves a broad spectrum of problems. Discussion of some of the basic phenomena as well as the pertinent theory could be found, for instance, in such well-known books as the ones due to N. Bloembergen; S.A. Akhmanov and R.V. Khokhlov; L. Allen and J.H. Eberly, and to V.M. Fain and Ya.1. Khanin. The book "Quantum Electronics" by A. Yariv could serve as an introductory guide to the subject. Thus, some of the basic material in the present book will already be well known to the reader who is an expert in the field. There are, for instance, general density matrix equations; two-level model and basic effects associated with this model, such as saturation of one-photon absorption and Raby oscillations; some basic multiphoton processes such as two-photon absorption, SRS, etc.
This book focuses on a fundamental feature of vacuum electronics: the strong interaction of the physics of electron beams and vacuum microwave electronics, including millimeter-wave electronics. The author guides readers from the roots of classical vacuum electronics to the most recent achievements in the field. Special attention is devoted to the physics and theory of relativistic beams and microwave devices, as well as the theory and applications of specific devices.
Authored by leading international researchers, this monograph introduces and reviews developed tomograhic methods for discovering 2D and 3D structures of the ionosphere, and discusses the experimental implementation of these methods. The detailed derivations and explanations make this book an excellent starting point for non-specialists.
Clinical Management of Thyroid Disease is an exciting new book edited by Fredric Wondisford, MD—developer of the revolutionary new drug, Thyrotropin—and Sally Radovick, MD, with contributions from experts in the field. It fulfills the niche of a succinct, clinical resource to help you translate research into practice. This full-color volume offers valuable information on thyroid cancer and non-cancerous lesions, the effect of drugs on thyroid function, genetic disorders, and more in an accessible, easy-to-read consistent format. Presents the expertise of authors and editorial staff comprised of leaders in the field of thyroid research and clinical management for the best-qualified guidance on diagnosis and treatment. Provides a full-color, comprehensive approach that makes valuable information easy to locate and quick to read. Covers relevant topics applicable to all levels of training and expertise to serve as a detailed clinical reference on everything from the basic to the sophisticated. Captures research advances on hot topics such as thyroid cancer and non-cancerous lesions, the effect of drugs on thyroid function, and genetic disorders so that you can incorporate them into the way you treat patients.
I.E. Tamm is one of the great figures of 20th century physics and the mentor of the late A.D. Sakharov. Together with I.M. Frank, he received the Nobel Prize in 1958 for the explanation of the Cherenkov effect. This book contains a commented selection of his most important contributions to the physical literature and essays on his contemporaries - Mandelstam, Einstein, Landau, and Bohr - as well as his contributions to Pugwash conferences. About a third of the selections originally appeared in Russian and are, to our knowledge, for the first time now available to Western readers. This volume includes a preface by Sir Rudolf Peierls, a biography compiled by Tamm's former students, V.Ya. Frenkel and B.M. Bolotovskii, and a complete bibliography.
Van der Waals Ferroelectrics A comprehensive guide to a unique class of compounds with a variety of applications Since the discovery of graphene, there has been intensive interest in two-dimensional materials with similar electronic and industrial applications. The limitations on the usefulness of graphene itself, however, have powered the search for other materials with similar properties. One such class of materials, the phosphorous chalcogenides, has proven a particularly fruitful avenue for research, due to the favorable band gap and ferroelectric properties of these materials. Van der Waals Ferroelectrics provides, for the first time, a detailed overview of this highly relevant and sought-after class of materials, also known as transition metal chalcogenophosphates (TMCPs). Focusing on physical properties, the book explores the complex physics underlying these compounds as well as the unique characteristics that have driven their ever-increasing importance to the materials science community. Van der Waals Ferroelectrics readers will also find: Both computational and experimental perspectives on TCMP compounds In-depth discussion of the properties essential to the design and construction of devices like sensors, actuators, memory chips, and capacitors The first detailed review of the functional properties of TCMP compounds, such as ferrielectricity, electrostriction, and ionic conductivity Van der Waals Ferroelectrics is a useful reference for materials scientists, inorganic chemists, solid state chemists, solid state physicists, electrical engineers, and libraries supporting these professions.
Nonlinear optical studies of periodic dielectric structures have blossomed in the past two decades. New fabrication techniques are producing fiber grating and multidimensional photonic crystals in materials where the refractive index can be varied by light pulses and beams. Gap solitons that can propagate at any velocity from zero to the speed of light and spatial solitons that prevent the diffractive spread of light in waveguide arrays are two examples of the new phenomena described in this book. Microstructured optical fibers allow control of the guided mode dispersion for broadband light generation and new soliton phenomena. Many new materials and structures are being developed that will impact new optical devices with applications in optical communications and optical data processing. All the above topics are addressed in detail in this book.
The organizing committee envisioned bringing together three groups of people working on the following topics in fluid and plasma dynamics: 1. Geometric aspects : Hamiltonian structures, perturbation theory and nonlinear stability by variational methods, 2) Analytical and numerical methods: contour dynamics, spectral methods, and functional analytic techniques, 3) Dynamical systems aspects: experimental and numerical methods, bifurcation theory, and chaos."- introduction
This study deals essentially with the knowledge of the Palestinian Rabbis concerning paganism in the days of Mishna and Talmud. The Late Professor Saul Lieberman wrote that “Many isolated items on idolatry and idol worshippers are scattered all over rabbinic literature. It would require a large volume to treat this topic”. This valuable and exhaustive study proves methodically that the Rabbis had deeper knowledge about Syrian, Arabian, Anatolian and Graeco-Roman Pagan cults than is commonly believed. Clear, accessible and displaying considerable scholarship this work will undoubtedly provide an important challenge to both historians, archaeologists, and scholars of Rabbinic texts. *** Cette étude traite essentiellement du niveau de connaissances des Rabbins de Judée et de Galilée concernant les cultes païens dans le sens le plus large du terme. Le Professeur Saul Lieberman affirmait : “Many isolated items on idolatry and idol worshippers are scattered all over rabbinic literature. It would require a large volume to treat this topic” Ce travail exhaustif, à travers l’ensemble du corpus talmudique et au regard de la réalité historique propre à la Palestine romaine, montre méthodiquement que les connaissances des Sages, tant sur les divinités du paganisme que sur des rites syriens, arabes, anatoliens voire gréco-romains, étaient bien plus vastes et approfondies, que ce qu’il est communément admis aujourd’hui par la recherche historique. De part sa clareté et son accessibilité, ce livre intéressera aussi bien les historiens du peuple juif, que ceux des religions antiques. Les archéologues, les historiens du Levant à l’époque romaine, ainsi que les spécialistes de la littérature talmudique y trouveront également un vif intérêt en vertu de son aspect extrêmement novateur.
This volume contains contributions from co-operative research activities in physics and chemistry and addresses heterogeneous systems like atoms and molecules in complex environments, dye molecules like the retinal chromophore in the protein box of the human eye, interacting atoms/molecules in the interlayer of adsorbed structures, nucleation and domain formation processes in magnetic and martensitic systems. The particular aim of the contributions is to deduce the connection between different grades of heterogeneity and to bridge the gap between chemicals and heterogeneity on the atomic scale, and the physics of macroscopically heterogeneous systems. Besides the diverse experimental tools employed in the investigations, accompanying theoretical investigations range from ab initio molecular dynamics studies of the microscopic systems to Monte Carlo simulations of the larger-scale problems.
Written by one of the most eminent pediatric radiologists, this popular textbook is a practical, concise, and easy-to-read guide to the radiologic workup of acute illnesses and injuries in children. The book is conveniently organized by anatomic site and covers all acute conditions encountered in the emergency room, outpatient clinic, and office. Close attention is also given to normal findings and anatomic variants that can mimic pathology. More than 2,100 MR, CT, ultrasound, and plain film images--350 new to this edition--complement the text. This edition features expanded coverage of abdominal ultrasound, pulmonary infections, skeletal fractures, and cervical spine injuries. A Brandon-Hill recommended title.
Geared toward advanced undergraduate and graduate students of physics, this text advances from a brief introduction to a three-part treatment covering particles of spin zero, particles of one-half, and collision and radiation processes. 1963 edition.
This book addresses graduate students and researchers wishing to better understand the liquid and supercritical fluid states of matter, presenting a single cohesive treatment of the liquid and supercritical fluid states using the gas-like and solid-like approaches. Bringing this information together into one comprehensive text, this book outlines how our understanding of the liquid and supercritical fluid states is applied and explores the use of supercritical fluids in daily life and in research, for example in power generation, and their existence in planetary interiors. Presents a single coherent treatment of the key knowledge about the liquid and supercritical fluid states Provides comprehensive survey of key fluid properties from the latest experiments and applies our theoretical knowledge to understand the behaviour of these real fluids Explores the consequences of recent advances in the field on our understanding in industry, nature, and in interdisciplinary research, including planetary science
Preliminary material -- SYRIA, MESOPOTAMIA, ASIA MINOR -- GRAECIA, MACEDONIA, THRACIA -- MOESIA INFERIOR -- MOESIA SUPERIOR -- DALMATIA -- DACIA -- PANNONIA INFERIOR -- PANNONIA SUPERIOR -- NORICUM -- ROM -- ITALIA -- RAETIA -- GERMANIA SUPERIOR -- GERMANIA INFERIOR -- BRITANNIA -- GALLIA -- HISPANIA -- AFRICA -- ADDENDA -- KONKORDANZEN -- INDICES -- TAFELVERZEICHNIS -- TAFELN I-CXXXIII.
The economic crisis of 2008 has shown that the capital markets need new theoretical and mathematical concepts to describe and price financial instruments. Focusing on interest rates and coupon bonds, this book does not employ stochastic calculus – the bedrock of the present day mathematical finance – for any of the derivations. Instead, it analyzes interest rates and coupon bonds using quantum finance. The Heath-Jarrow-Morton and the Libor Market Model are generalized by realizing the forward and Libor interest rates as an imperfectly correlated quantum field. Theoretical models have been calibrated and tested using bond and interest rates market data. Building on the principles formulated in the author's previous book (Quantum Finance, Cambridge University Press, 2004) this ground-breaking book brings together a diverse collection of theoretical and mathematical interest rate models. It will interest physicists and mathematicians researching in finance, and professionals working in the finance industry.
Handbook of Neurological Sports Medicine: Concussion and Other Nervous System Injuries in the Athlete presents techniques for diagnosis and treatment of head-related injuries to enable medical professionals to provide the best care possible. Authored by a respected team of neurosurgeons, including highly regarded concussion researcher Julian Bailes, this evidence-based reference offers expert guidelines for managing these serious injuries. A strong focus is placed on concussion due to the risk involved with this common injury. The text outlines how to recognize, assess, and treat concussions, preparing practitioners to calmly respond to athletes who are exhibiting signs of this dangerous condition. It also reviews the biomechanics and pathophysiology at the core of concussions to better understand their clinical presentations. Critical return-to-play guidelines and participation recommendations for patients with preexisting neurological conditions or structural lesions arm medical professionals with the principles needed for making appropriate decisions for athletes’ safety. The text explains the roles of pharmacological management, natural treatment approaches, rehabilitation strategies, and education. In addition, chapters provide coverage of postconcussion syndrome, subconcussion, and second-impact syndrome. Handbook of Neurological Sports Medicine also takes a look at other traumatic injuries, including injuries to the cervical, thoracic, and lumbar spine, and the soft tissue and fascia within the spinal unit. It provides an overview of peripheral nervous system injuries to ensure medical professionals understand those serious and potentially career-ending issues, reviews facets of optimal response with suspected or proven spinal injury, and discusses the evaluation and management of athletes with non-concussion-related headaches and heat illness or heatstroke. The text includes additional features to address issues surrounding critical injuries: • Guidance on developing an action plan for athletic events prepares first responders for emergency situations. • A review of cases of interest provides examples of situations that can—and do—occur. • Medicolegal considerations educate practitioners about negligence, standard of care, and proximate cause. • More than 150 photos and illustrations offer visual support to further explain the injuries. The evaluation and management of sport-related neurological injuries have matured at an unprecedented rate. Handbook of Neurological Sports Medicine is a critical resource for all who encounter and treat neurological injuries, providing the foundation for the clinical decisions that all athletic medical practitioners must make to give their patients the best treatment possible. Continuing education credits and units may also be earned based on the subject matter in this book. Explore online CE course options in Human Kinetics’ Continuing Education store.
Das Handbuch stellt gewöhnliche ebenso wie spezielle Probleme in der gynäkologischen Klinik in Form evidenzbasierter Behandlungsformen dar und benennt die diagnostischen und therapeutischen Möglichkeiten, die heute zur Verfügung stehen. Datenerhebung, Entscheidungsanalyse, Kosten und Ergebnisse sind die Prozessstufen, die detailliert dargestellt werden. Jedes Kapitel beginnt mit einem klinischen Profil der Krankheit bzw. Beschwerde und stellt eine Methodologie vor, die auf Daten datenbasierende Entscheidungsanalysen verwendet, um schließlich zu einer Behandlungsempfehlung zu gelangen. Ein "Entscheidungs-Baum" führt Faktoren wie Behandlungsoptionen, erwartete Ergebnisse und Kosten zusammen. Evidenzgrade und Levels werden im Layout unterschiedlich dargestellt und helfen bei der Orientierung. Mit diesem Band liegt das erste konsequent evidenzbasierte Werk zur perioperativen und unterstützenden Versorgung in der gynäkologischen Onkologie vor.
A Modern Course in Statistical Physics is a textbook that illustrates the foundations of equilibrium and non-equilibrium statistical physics, and the universal nature of thermodynamic processes, from the point of view of contemporary research problems. The book treats such diverse topics as the microscopic theory of critical phenomena, superfluid dynamics, quantum conductance, light scattering, transport processes, and dissipative structures, all in the framework of the foundations of statistical physics and thermodynamics. It shows the quantum origins of problems in classical statistical physics. One focus of the book is fluctuations that occur due to the discrete nature of matter, a topic of growing importance for nanometer scale physics and biophysics. Another focus concerns classical and quantum phase transitions, in both monatomic and mixed particle systems. This fourth edition extends the range of topics considered to include, for example, entropic forces, electrochemical processes in biological systems and batteries, adsorption processes in biological systems, diamagnetism, the theory of Bose-Einstein condensation, memory effects in Brownian motion, the hydrodynamics of binary mixtures. A set of exercises and problems is to be found at the end of each chapter and, in addition, solutions to a subset of the problems is provided. The appendices cover Exact Differentials, Ergodicity, Number Representation, Scattering Theory, and also a short course on Probability.
Covers the advantages of using photothermal spectroscopy over conventional absorption spectroscopy, including facilitating extremely sensitive measurements and non-destructive analysis This unique guide to the application and theory of photothermal spectroscopy has been newly revised and updated to include new methods and applications and expands on applications to chemical analysis and material science. The book covers the subject from the ground up, lists all practical considerations needed to obtain accurate results, and provides a working knowledge of the various methods in use. Photothermal Spectroscopy Methods, Second Edition includes the latest methods of solid state and materials analysis, and describes new chemical analysis procedures and apparatuses in the analytical chemistry sections. It offers a detailed look at the optics, physical principles of heat transfer, and signal analysis. Information in the temperature change and optical elements in homogeneous samples and photothermal spectroscopy in homogeneous samples has been updated with a better description of diffraction effects and calculations. Chapters on analytical measurement and data processing and analytical applications are also updated and include new information on modern applications and photothermal microscopy. Finally, the Photothermal Spectroscopy of Heterogeneous Sample chapter has been expanded to incorporate new methods for materials analysis. New edition updates and expands on applications to chemical analysis and materials science, including new methods of solid state and materials analysis Includes new chemical analysis procedures and apparatuses Provides an unmatched resource that develops a consistent mathematical basis for signal description, consolidates previous theories, and provides invaluable insight into laser technology Photothermal Spectroscopy Methods, Second Edition will appeal to researchers from both academia and industry (graduate students, postdocs, research scientists, and professors) in the general field of analytical chemistry, optics, and materials science, and researchers and engineers at scientific instrument developers in fields related to photonics and spectroscopy.
Basic laws of nature are rather simple, but observed biological structures and their dynamic behaviors are unbelievably complicated. This book is devoted to a study of this “strange” relationship by applying mathematical modeling to various structures and phenomena in biology, such as surface patterns, bioadhesion, locomotion, predator-prey behavior, seed dispersal, etc. and revealing a kind of self-organization in these phenomena. In spite of diversity of biological systems considered, two main questions are (1) what does self-organization in biology mean mathematically and (2) how one can apply this knowledge to generate new knowledge about behavior of particular biological system? We believe that this kind of “biomimetics” in computer will lead to better understanding of biological phenomena and possibly towards development of technical implications based on our modeling.
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