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Defectives in the Land: Disability and Immigration in the Age of Eugenics

Immigration history has largely focused on the restriction of immigrants by race and ethnicity, overlooking disability as a crucial factor in the crafting of the image of the “undesirable immigrant.” Defectives in the Land, Douglas C. Baynton’s groundbreaking new look at immigration and disability, aims to change this. In the late nineteenth and early twentieth centuries, Baynton explains, immigration restriction in the United States was primarily intended to keep people with disabilities—known as “defectives”—out of the country. The list of those included is long: the deaf, blind, epileptic, and mobility impaired; people with curved spines, hernias, flat or club feet, missing limbs, and short limbs; those unusually short or tall; people with intellectual or psychiatric disabilities; intersexuals; men of “poor physique” and men diagnosed with “feminism.” Not only were disabled individuals excluded, but particular races and nationalities were also identified as undesirable based on their supposed susceptibility to mental, moral, and physical defects. In this transformative book, Baynton argues that early immigration laws were a cohesive whole—a decades-long effort to find an effective method of excluding people considered to be defective. This effort was one aspect of a national culture that was increasingly fixated on competition and efficiency, anxious about physical appearance and difference, and haunted by a fear of hereditary defect and the degeneration of the American race.

Defectives in the Land: Disability and Immigration in the Age of Eugenics

Immigration history has largely focused on the restriction of immigrants by race and ethnicity, overlooking disability as a crucial factor in the crafting of the image of the “undesirable immigrant.” Defectives in the Land, Douglas C. Baynton’s groundbreaking new look at immigration and disability, aims to change this. In the late nineteenth and early twentieth centuries, Baynton explains, immigration restriction in the United States was primarily intended to keep people with disabilities—known as “defectives”—out of the country. The list of those included is long: the deaf, blind, epileptic, and mobility impaired; people with curved spines, hernias, flat or club feet, missing limbs, and short limbs; those unusually short or tall; people with intellectual or psychiatric disabilities; intersexuals; men of “poor physique” and men diagnosed with “feminism.” Not only were disabled individuals excluded, but particular races and nationalities were also identified as undesirable based on their supposed susceptibility to mental, moral, and physical defects. In this transformative book, Baynton argues that early immigration laws were a cohesive whole—a decades-long effort to find an effective method of excluding people considered to be defective. This effort was one aspect of a national culture that was increasingly fixated on competition and efficiency, anxious about physical appearance and difference, and haunted by a fear of hereditary defect and the degeneration of the American race.

Defectives in the Land: Disability and Immigration in the Age of Eugenics

Immigration history has largely focused on the restriction of immigrants by race and ethnicity, overlooking disability as a crucial factor in the crafting of the image of the “undesirable immigrant.” Defectives in the Land, Douglas C. Baynton’s groundbreaking new look at immigration and disability, aims to change this. In the late nineteenth and early twentieth centuries, Baynton explains, immigration restriction in the United States was primarily intended to keep people with disabilities—known as “defectives”—out of the country. The list of those included is long: the deaf, blind, epileptic, and mobility impaired; people with curved spines, hernias, flat or club feet, missing limbs, and short limbs; those unusually short or tall; people with intellectual or psychiatric disabilities; intersexuals; men of “poor physique” and men diagnosed with “feminism.” Not only were disabled individuals excluded, but particular races and nationalities were also identified as undesirable based on their supposed susceptibility to mental, moral, and physical defects. In this transformative book, Baynton argues that early immigration laws were a cohesive whole—a decades-long effort to find an effective method of excluding people considered to be defective. This effort was one aspect of a national culture that was increasingly fixated on competition and efficiency, anxious about physical appearance and difference, and haunted by a fear of hereditary defect and the degeneration of the American race.

Defectives in the Land: Disability and Immigration in the Age of Eugenics

Immigration history has largely focused on the restriction of immigrants by race and ethnicity, overlooking disability as a crucial factor in the crafting of the image of the “undesirable immigrant.” Defectives in the Land, Douglas C. Baynton’s groundbreaking new look at immigration and disability, aims to change this. In the late nineteenth and early twentieth centuries, Baynton explains, immigration restriction in the United States was primarily intended to keep people with disabilities—known as “defectives”—out of the country. The list of those included is long: the deaf, blind, epileptic, and mobility impaired; people with curved spines, hernias, flat or club feet, missing limbs, and short limbs; those unusually short or tall; people with intellectual or psychiatric disabilities; intersexuals; men of “poor physique” and men diagnosed with “feminism.” Not only were disabled individuals excluded, but particular races and nationalities were also identified as undesirable based on their supposed susceptibility to mental, moral, and physical defects. In this transformative book, Baynton argues that early immigration laws were a cohesive whole—a decades-long effort to find an effective method of excluding people considered to be defective. This effort was one aspect of a national culture that was increasingly fixated on competition and efficiency, anxious about physical appearance and difference, and haunted by a fear of hereditary defect and the degeneration of the American race.

Defects and Disorder in Crystalline and Amorphous Solids (Nato Science Series C: #418)

The study of defects and disorder in solids remains a central topic in solid state science. Developments in the field continue to be promoted by new experimental and theoretical techniques, while further impetus for the study of disorder in solids is provided by the growing range of applications of solid state materials in which disorder at the atomic level plays a crucial rOle. In this book we attempt to present a survey of fundamental and applied aspects of the field. We consider the basic aspects of defective crystalline and amorphous solids. We discuss recent studies of structural, electronic, transport, thermodynamic and spectroscopic properties of such materials. Experimental and theoretical methodologies are reviewed, and detailed consideration is given to materials such as fast ion conductors and amorphous semiconductors that are of importance in an applied context. Any survey of this large field is necessarily selective. We have chosen to emphasise insulating (especially oxidic) and semi-conducting materials. But many of the approaches and techniques we describe apply generally across the entire field of solid state science. This volume is based on a NATO ASI held at the Residencia Santa Teresa de Jesus, Madrid in September 1991. The Editor is grateful to the NATO Scientific Affairs Division for their sponsorship of this School. Thanks are also due to all who participated in and lectured at the school, but especially to the organising committee of A. V. Chadwick, G. N. Greaves, M. Grigorkiewicz, J. H. Harding and S. Kalbitzer. C. R. A.

Defects and Fracture: Proceedings of First International Symposium on Defects and Fracture, held at Tuczno, Poland, October 13–17, 1980

An International Symposium on Defects and Fracture was held in Tuczno, Poland, 13-17 October 1980 under the sponsorship of the Polish Academy of Sci­ ences and Institute of Fracture and Solid Mechanics, Lehigh University. Profes­ sor H. Zorski of the Academy and Professor G. C. Sih of Lehigh University were Co-Chairmen. The idea for the Symposium was initiated by the members of the Organizing Committee: G. C. Sih (Co-Chairman), H. Zorski (Co-Chairman), M. Matczynski (Secretary), D. R. Axelrad, R. Bullough, J. W. Provan and R. deWit. With the rapid development of high performance materials and their increasing use in vital structural applications, there is a need for a more in-depth under­ standing of the fundamentals associated with material behavior and failure. Al­ though this topic encompasses a wide range of disciplines, it is appropriate to narrow the discussion to material failures initiating from inherent, unavoidable defects or cracks. A balanced coverage of analysis and physics was achieved by inviting speakers with backgrounds in applied mechanics and solid state physics. The input was limited to a small group of specialists who had the opportunity to discuss not only past progress but also ideas for future research.

Defects and Impurities in Silicon Materials: An Introduction to Atomic-Level Silicon Engineering (Lecture Notes in Physics #916)

This book emphasizes the importance of the fascinating atomistic insights into the defects and the impurities as well as the dynamic behaviors in silicon materials, which have become more directly accessible over the past 20 years. Such progress has been made possible by newly developed experimental methods, first principle theories, and computer simulation techniques. The book is aimed at young researchers, scientists, and technicians in related industries. The main purposes are to provide readers with 1) the basic physics behind defects in silicon materials, 2) the atomistic modeling as well as the characterization techniques related to defects and impurities in silicon materials, and 3) an overview of the wide range of the research fields involved.

Defects and Surface-Induced Effects in Advanced Perovskites (NATO Science Partnership Subseries: 3 #77)

Complex oxide materials, especially the ABO3-type perovskite materials, have been attracting growing scientific interest due to their unique electro-optical properties, leading to photorefractive effects that form the basis for such devices as holographic storage, optical data processing and phase conjugation. The optical and mechanical properties of non-metals are strongly affected by the defects and impurities that are unavoidable in any real material. Nanoscopically sized surface effects play an important role, especially in multi-layered ABO3 structures, which are good candidates for high capacity memory cells. The 51 papers presented here report the latest developments and new results and will greatly stimulate progress in high-tech technologies using perovskite materials.

Defects and Their Structure in Nonmetallic Solids (Nato Science Series B: #19)

The Advanced Study Institute of which this volume is the proceedings was held at the University of Exeter during 24 August to 6 September 1975. There were seventy participants of whom eighteen were lecturers and members of the advisory committee. All NATO countries except Holland, Iceland and Portugal were re­ presented. In addition a small number of participants came from non-NATO countries Japan, Ireland and Switzerland. An aim of the organising committee was to bring together scientists of wide interests and expertise in the defect structure of insulators and semiconductors. Thus major emphases in the pro­ gramme concerned the use of spectroscopy and microscopy in revealing the structure of point defects and their aggregates, line defects as well as planar and volume defects. The lectures revealed that in general little is known of the fate of the interstitial in most irradiated solids. Nor are the dynamic properties of defects under­ stood in sufficient detail that one can state how point defects cluster and eventually become macroscopic defects. Although this book faithfully reproduces the material covered by the invited speakers, it does not really follow the flow of the lectures. This is because it seemed advisable for each lecturer to provide a single self-contained and authoritative manuscript, rather than a series of short articles corresponding to the lectures.

Defects at Oxide Surfaces (Springer Series in Surface Sciences #58)

This book presents the basics and characterization of defects at oxide surfaces. It provides a state-of-the-art review of the field, containing information to the various types of surface defects, describes analytical methods to study defects, their chemical activity and the catalytic reactivity of oxides. Numerical simulations of defective structures complete the picture developed. Defects on planar surfaces form the focus of much of the book, although the investigation of powder samples also form an important part. The experimental study of planar surfaces opens the possibility of applying the large armoury of techniques that have been developed over the last half-century to study surfaces in ultra-high vacuum. This enables the acquisition of atomic level data under well-controlled conditions, providing a stringent test of theoretical methods. The latter can then be more reliably applied to systems such as nanoparticles for which accurate methods of characterization of structure and electronic properties have yet to be developed. The book gives guidance to tailor oxide surfaces by controlling the nature and concentration of defects. The importance of defects in the physics and chemistry of metal oxide surfaces is presented in this book together with the prominent role of oxides in common life. The book contains contributions from leaders in the field. It serves as a reference for experts and beginners in the field.

Defects, Fracture and Fatigue: Proceedings of the Second International Symposium, held at Mont Gabriel, Canada, May 30–June 5, 1982

Defects in HIgh-k Gate Dielectric Stacks: Nano-Electronic Semiconductor Devices (NATO Science Series II: Mathematics, Physics and Chemistry #220)

The goal of this NATO Advanced Research Workshop (ARW) entitled “Defects in Advanced High-k Dielectric Nano-electronic Semiconductor Devices”, which was held in St. Petersburg, Russia, from July 11 to 14, 2005, was to examine the very complex scientific issues that pertain to the use of advanced high dielectric constant (high-k) materials in next generation semiconductor devices. The special feature of this workshop was focus on an important issue of defects in this novel class of materials. One of the key obstacles to high-k integration into Si nano-technology are the electronic defects in high-k materials. It has been established that defects do exist in high-k dielectrics and they play an important role in device operation. However, very little is known about the nature of the defects or about possible techniques to eliminate, or at least minimize them. Given the absence of a feasible alternative in the near future, well-focused scientific research and aggressive development programs on high-k gate dielectrics and related devices must continue for semiconductor electronics to remain a competitive income producing force in the global market.

Defects in Liquid Crystals: Computer Simulations, Theory and Experiments (NATO Science Series II: Mathematics, Physics and Chemistry #43)

Topological defects are the subject of intensive studies in many different branches of physics ranging from cosmology to liquid crystals and from elementary particles to colloids and biological systems. Liquid crystals are fascinating materials which present a great variety of these mathematical objects and can therefore be considered as an extremely useful laboratory for topological defects. This book is the first attempt to present together complementary approaches to the investigations of topological defects in liquid crystals using theory, experiments and computer simulations.

Defects in Optoelectronic Materials

Defects in Optoelectronic Materials bridges the gap between device process engineers and defect physicists by describing current problems in device processing and current understanding of these defects based on defect physics. The volume covers defects and their behaviors in epitaxial growth, in various processes such as plasma processing, deposition and implantation, and in device degradation. This book also provides graduate students cutting-edge information on devices and materials interaction.

Defects in Optoelectronic Materials

Defects in Optoelectronic Materials bridges the gap between device process engineers and defect physicists by describing current problems in device processing and current understanding of these defects based on defect physics. The volume covers defects and their behaviors in epitaxial growth, in various processes such as plasma processing, deposition and implantation, and in device degradation. This book also provides graduate students cutting-edge information on devices and materials interaction.

Defects in Self-Catalysed III-V Nanowires (Springer Theses)

This thesis presents an in-depth exploration of imperfections that can be found in self-catalysed III-V semiconductor nanowires. By utilising advanced electron microscopy techniques, the interface sharpness and defects at the atomic and macroscopic scale are analysed. It is found that a surprising variety and quantity of defect structures can exist in nanowire systems, and that they can in fact host some never-before-seen defect configurations. To probe how these defects are formed, conditions during nanowire growth can be emulated inside the microscope using the latest generation of in-situ heating holder. This allowed the examination of defect formation, dynamics, and removal, revealing that many of the defects can in fact be eliminated. This information is critical for attaining perfect nanowire growth. The author presents annealing strategies to improve crystal quality, and therefore device performance.

Defects in SiO2 and Related Dielectrics: Science and Technology (NATO Science Series II: Mathematics, Physics and Chemistry #2)

Silicon dioxide plays a central role in most contemporary electronic and photonic technologies, from fiber optics for communications and medical applications to metal-oxide-semiconductor devices. Many of these applications directly involve point defects, which can either be introduced during the manufacturing process or by exposure to ionizing radiation. They can also be deliberately created to exploit new technologies. This book provides a general description of the influence that point defects have on the global properties of the bulk material and their spectroscopic characterization through ESR and optical spectroscopy.

Defects in Solids (Treatise on Solid State Chemistry)

The last quarter-century has been marked by the extremely rapid growth of the solid-state sciences. They include what is now the largest subfield of physics, and the materials engineering sciences have likewise flourished. And, playing an active role throughout this vast area of science and engineer­ ing have been very large numbers of chemists. Yet, even though the role of chemistry in the solid-state sciences has been a vital one and the solid-state sciences have, in turn, made enormous contributions to chemical thought, solid-state chemistry has not been recognized by the general body of chemists as a major subfield of chemistry. Solid-state chemistry is not even well defined as to content. Some, for example, would have it include only the quantum chemistry of solids and would reject thermodynamics and phase equilibria; this is nonsense. Solid-state chemistry has many facets, and one of the purposes of this Treatise is to help define the field. Perhaps the most general characteristic of solid-state chemistry, and one which helps differentiate it from solid-state physics, is its focus on the chemical composition and atomic configuration of real solids and on the relationship of composition and structure to the chemical and physical properties of the solid. Real solids are usually extremely complex and exhibit almost infinite variety in their compositional and structural features.

Defects in Solids: Modern Techniques (pdf) (Nato Science Series B: #Vol. 147)

Defects in Solids (Special Topics in Inorganic Chemistry #4)

Provides a thorough understanding of the chemistry and physics of defects, enabling the reader to manipulate them in the engineering of materials. Reinforces theoretical concepts by placing emphasis on real world processes and applications. Includes two kinds of end-of-chapter problems: multiple choice (to test knowledge of terms and principles) and more extensive exercises and calculations (to build skills and understanding). Supplementary material on crystallography and band structure are included in separate appendices.

Defects in T Cell Trafficking and Resistance to Cancer Immunotherapy (Resistance to Targeted Anti-Cancer Therapeutics #9)

This volume focuses on recent advances in understanding T cells as key players in antitumor immune responses, and as a result T cell-based immunotherapy is starting to transform the treatment of advanced cancers. However, despite recent successes, many patients with cancer fail to respond to these treatments. Defective migration of T cells into and within tumors is considered as an important resistance mechanism to cancer immunotherapy.The volume includes three sections. The first section covers general knowledge about T cell trafficking during a normal immune response but also during tumor development. The second section provides an in-depth description of the different obstacles that prevent T cells from migrating and contacting tumor cells. The third section explores therapeutic strategies to improve trafficking of T cells into tumors and, thus, to enhance the effectiveness of cancer immunotherapy.

Defects of Secretion in Cystic Fibrosis (Advances In Experimental Medicine And Biology Ser. #Vol. 558)

Defects in Secretion of Cystic Fibrosis presents an overview on current research from leading experts in North America and Europe. This update on cystic fibrosis provides in depth original work as well as review material on many of the relevant physiological and molecular topics in the field. Subjects covered include the interplay of the various epithelial ion channels, the underlying intracellular signal transduction, mucus secretion, and novel approaches to develop drugs against cystic fibrosis. This book brings together physicians, physiologists, and other scientists involved in basic research, from molecular biology to drug design and introduces novel investigative and therapeutic aspects of secretion disorders relevant in cystic fibrosis and related diseases. This book will be of interest to Molecular biologists, physiologists, scientists working in pharmaceutical research and drug developement, physicians and researchers in Cystic fibrosis and related diseases.

Defence Against Bioterrorism: Methods for Prevention and Control (NATO Science for Peace and Security Series A: Chemistry and Biology)

This volume is based on a multidisciplinary approach towards biological and chemical threats that can, and have been previously used in bioterrorism attacks around the globe. Current knowledge and evidence-based principles from the fields of synthetic biology, microbiology, plant biology, chemistry, food science, forensics, tactics, infective medicine, psychology and others are compiled to address numerous aspects and the complexity of bioterrorism attacks. The main focus is on biological threats, especially in the context of synthetic biology and its emerging findings that can be observed as possible threat and tool. The book examines microorganisms and their possible use in forensics, i.e. as possible detection tool that could enable fast and precise detection of possible treats. A number of plant derived components are also discussed as possible agents in bioterrorism attacks, and in relation to infectious disease pathology. Another integral part is food safety, especially in terms of large food supply chains, like airline caterings, institutionalized kitchens etc. Food can be observed as a possible mean of delivery of various agents (biological and chemical) for bioterrorism attacks. Steps on how to recognize specific critical points in a food supply chain, along with proposed corrective activities are discussed.Examples from around the globe, along with the methodological approach on how to differentiate bioterrorism attacks from other epidemics are provided. However, epidemics are also discussed in the context of migrations, with the special emphasis on the current refugee migrations that affect not only Europe, but also the United States. The book will be of interest to experts from various fields of science as well as professionals working in the field. The book encompasses examples and tools developed for easier, more specific, and faster detection of possible bioterrorism treats, along with proposed actions for some aspects of a bioterrorism attack.

Defence Nuclear Waste Disposal in Russia: International Perspective (NATO Science Partnership Subseries: 1 #18)

Significant amounts of liquid and solid radioactive waste have been generated in Russia during the production of nuclear weapons, and there is an urgent need to find suitable ways to manage these wastes in a way that protects both the current population and future generations. This book contains contributions from pure and applied scientists and other representatives from Europe, North America, and Russia, who are, or have been, actively involved in the field of radioactive waste management and disposal. First-hand experience of specific problems associated with defence-related wastes in the USA and the Russian Federation is presented, and current plans are described for the disposal of solid wastes arising from civilian nuclear power production programmes in other countries, including Belgium, Bulgaria, Canada, Germany and the UK. The book provides a good insight into ongoing research at local and national level within Russia, devoted to the safe disposal of defence-related radioactive waste. It also demonstrates how existing expertise and technology from civilian nuclear waste management programmes can be applied to solving the problems created by nuclear defence programmes. Contributions address methods of immobilisation, site selection methodology, site characterisation techniques and data interpretation, the key elements of safety/performance assessments of planned deep (geological) repositories for radioactive waste, and radionuclide transport modelling. Concerns associated with certain specific nuclear waste disposal concepts and repository sites are also presented.

Defending Beef: The Case for Sustainable Meat Production

For decades it has been nearly universal dogma among environmentalists and health advocates that cattle and beef are public enemy number one. But is the matter really so clear cut? Hardly, argues environmental lawyer turned rancher Nicolette Hahn Niman in her new book, Defending Beef. The public has long been led to believe that livestock, especially cattle, erode soils, pollute air and water, damage riparian areas, and decimate wildlife populations. In Defending Beef, Hahn Niman argues that cattle are not inherently bad for either the Earth or our own nutritional health. In fact, properly managed livestock play an essential role in maintaining grassland ecosystems by functioning as surrogates for herds of wild ruminants that once covered the globe. Hahn Niman argues that dispersed, grass-fed, small-scale farms can and should become the basis for American food production, replacing the factory farms that harm animals and the environment. The author—a longtime vegetarian—goes on to dispel popular myths about how eating beef is bad for our bodies. She methodically evaluates health claims made against beef, demonstrating that such claims have proven false. She shows how foods from cattle—milk and meat, particularly when raised entirely on grass—are healthful, extremely nutritious, and an irreplaceable part of the world’s food system. Grounded in empirical scientific data and with living examples from around the world, Defending Beef builds a comprehensive argument that cattle can help to build carbon-sequestering soils to mitigate climate change, enhance biodiversity, help prevent desertification, and provide invaluable nutrition. Defending Beef is simultaneously a book about big ideas and the author’s own personal tale—she starts out as a skeptical vegetarian and eventually becomes an enthusiastic participant in environmentally sustainable ranching. While no single book can definitively answer the thorny question of how to feed the Earth’s growing population, Defending Beef makes the case that, whatever the world’s future food system looks like, cattle and beef can and must be part of the solution.