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This extensive undertaking, Accelerator Mass Spectrometry, conducts an elaborate and comprehensive summary of one of the foremost catalysts of progress in scientific research. Accelerator mass spectrometry (AMS), an innovative analytical technique, measures rare atoms at unprecedented levels of sensitivity, revolutionizing the science of radiocarbon dating and accessing new natural radioisotopes as environmental tracers and chronometers. This book demonstrates how AMS is applied in the studies of extraterrestrial materials, the earth sciences, the future of the global environment, and the history of mankind. This compendium also highlights the significant impact of AMS on several fields of scientific investigation, spurring remarkable studies in global climate change, ancient artifacts, pollution, nuclear safeguards, geochronology, and materials characterization. The myriad of sample types and variety of applications in this examination include: Meteorites from Mars Ancient air trapped in Antarctic ice The Shroud of Turin The dating of human bones The colonization of the Americas and Australia Ancient rock art The crown of Charlemagne Cancerogenic effects of cooked meat The consequences of the Chernobyl accident The role of aluminum in Alzheimer's Disease This unique edition has compiled the diverse set of scientific literature into a single volume, suitable as a text or resource on the major AMS-related outcomes, issues, and methods.
Market: Those in government, industry, and academia interested in state-of-the-art knowledge on semiconductor characterization for research, development, and manufacturing. Based on papers given at an International Nist Workshop in January 1995, Semiconductor Characterization covers the unique characterization requirements of both silicon IC development and manufacturing, and compound semiconductor materials, devices, and manufacturing. Additional sections discuss technology trends and future requirements for compound semiconductor applications. Also highlighted are recent developments in characterization, including in- situ, in-FAB, and off-line analysis methods. The book provides a concise, effective portrayal of industry needs and problems in the important specialty of metrology for semiconductor technology.
Semiconductor sensors patterned at the micron scale combined with custom-designed integrated circuits have revolutionized semiconductor radiation detector systems. Designs covering many square meters with millions of signal channels are now commonplace in high-energy physics and the technology is finding its way into many other fields, ranging from astrophysics to experiments at synchrotron light sources and medical imaging. This book is the first to present a comprehensive discussion of the many facets of highly integrated semiconductor detector systems, covering sensors, signal processing, transistors and circuits, low-noise electronics, and radiation effects. The diversity of design approaches is illustrated in a chapter describing systems in high-energy physics, astronomy, and astrophysics. Finally a chapter "Why things don't work" discusses common pitfalls. Profusely illustrated, this book provides a unique reference in a key area of modern science.
Nuclear engineering plays an important role in various industrial, health care, and energy processes. Modern physics has generated its fundamental principles. A growing number of students and practicing engineers need updated material to access the technical language and content of nuclear principles. "Nuclear Principles in Engineering, Second Edition" is written for students, engineers, physicians and scientists who need up-to-date information in basic nuclear concepts and calculation methods using numerous examples and illustrative computer application areas. This new edition features a modern graphical interpretation of the phenomena described in the book fused with the results from research and new applications of nuclear engineering, including but not limited to nuclear engineering, power engineering, homeland security, health physics, radiation treatment and imaging, radiation shielding systems, aerospace and propulsion engineering, and power production propulsion.
The primary focus of this thesis is to theoretically describe nanokelvin experiments in cold atomic gases, which offer the potential to revolutionize our understanding of strongly correlated many-body systems. The thesis attacks major challenges of the field: it proposes and analyzes experimental protocols to create new and interesting states of matter and introduces theoretical techniques to describe probes of these states. The phenomena considered include the fractional quantum Hall effect, spectroscopy of strongly correlated states, and quantum criticality, among others. The thesis also clarifies experiments on disordered quantum solids, which display a variety of exotic phenomena and are candidates to exhibit so-called "supersolidity." It collects experimental results and constrains their interpretation through theoretical considerations. This Doctoral Thesis has been accepted by Cornell University, Ithaca, USA.
Conventional Deterrence is a book about the origins of war. Why do nations faced with the prospect of large-scale conventional war opt for or against an offensive strategy? John J. Mearsheimer examines a number of crises that led to major conventional wars to explain why deterrence failed. He focuses first on Allied and German decision making in the years 1939–1940, analyzing why the Allies did not strike first against Germany after declaring war and, conversely, why the Germans did attack the West. Turning to the Middle East, he examines the differences in Israeli and Egyptian strategic doctrines prior to the start of the major conventional conflicts in that region. Mearsheimer then critically assays the relative strengths and weaknesses of NATO and the Warsaw Pact to determine the prospects for conventional deterrence in any future crisis. He is also concerned with examining such relatively technical issues as the impact of precision-guided munitions (PGM) on conventional deterrence and the debate over maneuver versus attrition warfare.Mearsheimer pays considerable attention to questions of military strategy and tactics. Challenging the claim that conventional detrrence is largely a function of the numerical balance of forces, he also takes issue with the school of thought that ascribes deterrence failures to the dominance of "offensive" weaponry. In addition to examining the military consideration underlying deterrence, he also analyzes the interaction between those military factors and the broader political considerations that move a nation to war.