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A Writer at War
When the Germans invaded Russia in 1941, Vasily Grossman became a special correspondent for the Red Star, the Soviet Army's newspaper, and reported from the frontlines of the war. A Writer at War depicts in vivid detail the crushing conditions on the Eastern Front, and the lives and deaths of soldiers and civilians alike. Witnessing some of the most savage fighting of the war, Grossman saw firsthand the repeated early defeats of the Red Army, the brutal street fighting in Stalingrad, the Battle of Kursk (the largest tank engagement in history), the defense of Moscow, the battles in Ukraine, the atrocities at Treblinka, and much more. Antony Beevor and Luba Vinogradova have taken Grossman's raw notebooks, and fashioned them into a gripping narrative providing one of the most even-handed descriptions --at once unflinching and sensitive -- we have ever had of what Grossman called “the ruthless truth of war.”
Tank Warfare on the Eastern Front, 1941–1942
The author of Case White: The Invasion of Poland delves into the strategy and weaponry of armored warfare during the early years of the Russo-German War. The German panzer armies that swept into the Soviet Union in 1941 were an undefeated force that had honed their skill in combined arms warfare to a fine edge. The Germans focused their panzers and tactical air support at points on the battlefield defined as Schwerpunkt—main effort—to smash through any defensive line and then advance to envelope their adversaries. Initially, these methods worked well in the early days of Operation Barbarossa and the tank forces of the Red Army suffered defeat after defeat. Although badly mauled in the op...
Optical Processing and Computing
Optical Processing and Computing is a collection of research from the USA, Canada, Russia, and Poland on the developments in the fields of digital optical computing and analog optical processing. This book is organized into 15 chapters and begins with an overview of the hierarchy of interconnect problems. Some chapters deal with the fundamental limitations and capabilities of optics in relation to interconnections, switching, computing, materials, and devices. Other chapters explore the architectures, technology, and applications of the field. The topics range from promising areas in the early stages of development, such as nonlinear effects in fibers that could bring about the optical transistor, to developments in areas ready for technology, such as the production of optical kinoforms, an important type of computer-generated optical component. With a strong focus on the fundamental aspects of the field, this book is of interest to specialists, researchers, and students who need a broad coverage of the principles of optical computing and of the underlying physics.
Photorefractive Materials and Their Applications II
This is the second of two volumes that review, for the first time, all major aspects of photorefractive effects and their applications. Photorefractive effects in electro-optic crystals are based on optically induced space-charge fields which ultimately alter the refractive indices by the electro-optic Pockels effect. The fundamental phenomena leading to photoinduced changes of refractive index, the materials requirements and experimental results on a variety of photorefractive materials are discussed and the most recent theoretical models describing these phenomena are presented. Interest in photorefractive materials has increased in recent years mainly because of their potential for nonlinear optical devices and for optical signals processing applications. Most of these applications are reviewed in this volume. The contributions to the two volumes are written by experts on each topic and are intended for scientists and engineers active in the field and for researchers and graduate students entering the field. Over 300 references to original papers on photorefractive and associated phenomena are cited. Volume 1 appeared as Volume 61 of Topics in Applied Physics.
Optical Engineering
Publishes papers reporting on research and development in optical science and engineering and the practical applications of known optical science, engineering, and technology.
