These memoirs cover the life of the author from his youth in pre-World War II Vienna, his escape from the Germans, a coming-of-age period in Sacramento California to his return to Europe, first in the American army and later as an internationally known scientist. After the German take-over of Austria, life for Viennese Jews deteriorated rapidly. Personal betrayals, arrest of his father by the Gestapo, the pogrom of Kristallnacht and repeated beatings by young Nazi hoodlums was the progression of events that led the boy to leave Vienna for Holland on what has become known as a Kindertransport. There he spent almost a year in a camp for refugee children. Just after the beginning of WWII an almost unbelievable bureaucratic fluke allowed the author and his immediate family to emigrate to the United States. They settled in Sacramento, California, then a small, provincial town with a tightly knit society concerned almost exclusively with its immediate environment. The author, an outsider, became a juvenile delinquent who rebelled against all authority, father, school, police. After a brush with the local Mafia, followed by employment as a crane operator in the local railroad yards, he entered the US Army. A short stint as an infantry replacement in Italy was followed by training as a paratrooper and transfer to the Counter Intelligence Corps, where he became involved in the arrest and interrogation of SS and Gestapo personnel. He returned to America where he became a biophysicist. Shortly after his appointment to the Stanford faculty, he was invited to spend a summer at a Dutch scientific laboratory. He found the camp where he had spent a year as a child. There he was told that probably all the other children, those who had been his friends and those who were only acquaintances, were killed by the Germans. Why is it that he survived? What made him special? The author tries to deal with this conundrum that occupies every survivor of cataclysms such as war or genocide.
It is 1939. The Nazi invasion of Poland has started World War II. Three ordinary, decent, young Germans join the elite Nazi force, the SS. Johann Helmuth. a Bavarian farmer's son, does so primarily to please his authoritarian, anti-semitic father, but also out of a vague sense of patriotism and a need to belong to a larger group. Herbert Winkler's father runs a small automobile repair shop in a village in the mountains of the former Austria. The son is a confirmed Nazi, willing to sacrifice his life for the Thousand Year Reich and its glorious Fuhrer. The third, Werner Kohler, comes from a sophisticated and very wealthy Berlin family. He is neither an ideologue nor particularly patriotic, but bored, looking for excitement. The three become friends during the rigorous and demanding SS training that transformed ordinary citizens into members of what became arguably the most potent fighting force in all history. After the German invasion of Russia, they are sent to the eastern front, Johann and Werner in a Waffen-SS division, Herbert in a penal unit. In Russia they experience the monstrosity of modern warfare and the bestiality of the Nazi terror that is unleashed against the local populations and particularly against the Jews. They witness and participate in actions of indescribable horror. Can their background explain their different reactions to these events?
Hyperthermia as a tool for the treatment of malignant disease is rapidly becoming a clinical reality. In this book I am attempting to summarize the known biological and physical underpinnings that have led to this development. I also present a compilation of existing clinical results, limited as these are. My aim is to provide oncologists and other physicians with up-to-date information on this modality, which is both new and old, as well as to make available to biologists, physicists and engineers sum maries of currently available information on specific areas of hyperthermic research. Many people have helped me with this book. Specifically, thanks are due to Drs. William Dewey, Jean Dutreix, Peter Fessenden, Gloria Li, and Jane Marmor. Their suggestions have been invaluable. I hope that not too many errors and omissions have crept into the volume, but in any case, for these I have only myself to blame. I also wish to express my appreciation to David Betten and Marie Graham for their help. Most of this material was written while I was on sabbatical leave on the shores of Lake Atitlan in Guatemala. There I enjoyed the hospitality of a gracious, friendly, and proud people who deserve better than fate seems to have in store for them.
It was Britains most humiliating intelligence disaster of World War II. The newly established Special Operations Executive (SOE) dropped fifty-three agents during 1941 and 1942 into the Nazi-occupied Netherlands. Their mission was to aid the Dutch underground as part of Winston Churchills plan to set Europe ablaze. However, Dutch resistance was thoroughly penetrated by German counter-intelligence. In spite of repeated security warnings including one by SOEs own chief encoder, Leo Marks, agent after agent was parachuted into the waiting arms of the Nazis. Almost all of those captured were executed at the Mauthausen concentration camp. Two were able to escape from captivity and reach London to report the calamity. These two heroic men were promptly arrested as suspected double agents, their tale ignored. In this story, Sgt. Jeff Williamson, a fictitious Canadian agent, goes through SOE training and because of his ability to speak Dutch, is dropped into the Netherlands. He manages to evade German capture and make his way through war-torn, occupied Europe to Spain and Gibraltar only then to be incarcerated in an MI5 (British counter-intelligence) prison and kept there until the Germans surrender. During his time in prison and long afterwards he is haunted by his own history and the fate of his fellow agents. He is driven to attempt to find the cause of the intelligence disaster and SOEs motivation for his own imprisonment.
In recent years, the utilization of terpyridines both in macromolecular structure assembly and device chemistry has exploded, enabling, for example, supramolecular polymer architectures with switchable chemical and physical properties as well as novel functional materials for optoelectronic applications such as light-emitting diodes and solar cells. Further applications include the usage of terpyridines and their metal complexes as catalysts for asymmetric organic reactions and, in a biological context, as anti-tumor agents or biolabels. This book covers terpyridine-based materials topics ranging from syntheses, chemistry, and multinuclear metal complexes, right up to functionalized polymers, 3D-architectures, and surfaces. Aimed at materials scientists, (in)organic chemists, polymer chemists, complex chemists, physical chemists, biochemists, and libraries.
Concise yet comprehensive, the Biomedical Technology and Devices Handbook illuminates the equipment, devices, and techniques used in modern medicine to diagnose, treat, and monitor human illnesses. With topics ranging from the basic procedures like blood pressure measurement to cutting-edge imaging equipment, biological tests, and genetic engineeri
Providing a logical framework for student learning, this is the first textbook on adversarial learning. It introduces vulnerabilities of deep learning, then demonstrates methods for defending against attacks and making AI generally more robust. To help students connect theory with practice, it explains and evaluates attack-and-defense scenarios alongside real-world examples. Feasible, hands-on student projects, which increase in difficulty throughout the book, give students practical experience and help to improve their Python and PyTorch skills. Book chapters conclude with questions that can be used for classroom discussions. In addition to deep neural networks, students will also learn about logistic regression, naïve Bayes classifiers, and support vector machines. Written for senior undergraduate and first-year graduate courses, the book offers a window into research methods and current challenges. Online resources include lecture slides and image files for instructors, and software for early course projects for students.
This book deals with central simple Lie algebras over arbitrary fields of characteristic zero. It aims to give constructions of the algebras and their finite-dimensional modules in terms that are rational with respect to the given ground field. All isotropic algebras with non-reduced relative root systems are treated, along with classical anisotropic algebras. The latter are treated by what seems to be a novel device, namely by studying certain modules for isotropic classical algebras in which they are embedded. In this development, symmetric powers of central simple associative algebras, along with generalized even Clifford algebras of involutorial algebras, play central roles. Considerable attention is given to exceptional algebras. The pace is that of a rather expansive research monograph. The reader who has at hand a standard introductory text on Lie algebras, such as Jacobson or Humphreys, should be in a position to understand the results. More technical matters arise in some of the detailed arguments. The book is intended for researchers and students of algebraic Lie theory, as well as for other researchers who are seeking explicit realizations of algebras or modules. It will probably be more useful as a resource to be dipped into, than as a text to be worked straight through.
This broadly-based work gathers the vast bulk of information published on cyclopolymerization since its discovery - including the symmetrical diene counterparts of all classical monomers that can undergo addition polymerization, all unsymmetrical dienes, and cyclopolymerizable monomers such as dialdehydes, diynes, diisocyanates, diepoxides, dinitriles, and some organometallic monomers.;Providing access to contemporary knowledge in the field and offering discussions of interest to a wide variety of polymer scientists, Cyclopolymerization and Cyclocopolymerization: delineates theory; summarizes polymerization procedures; furnishes theoretical justification for mechanistic proposals; details commercial applications; and describes new monomer syntheses. Supplying over 2700 references as well as chemical abstract citations, Cyclopolymerization and Cyclocopolymerization is a resource which should be of practical value to polymer, academic, theoretical and industrial chemists; chemical and plastics engineers; research and development directors in chemistry and chemical engineering programmes; and graduate-level students in these disciplines
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.