Mikhail Lifshitz is a major forgotten figure in the tradition of Marxist philosophy and art history. A significant influence on Lukács, and the dedicatee of his The Young Hegel, as well as an unsurpassed scholar of Marx and Engels’s writings on art and a lifelong controversialist, Lifshitz’s work dealt with topics as various as the philosophy of Marx and the pop aesthetics of Andy Warhol. The Crisis of Ugliness (originally published in Russian by Iskusstvo, 1968), published here in English for the first time, and with a detailed introduction by its translator David Riff, is a compact broadside against modernism in the visual arts that nevertheless resists the dogmatic complacencies of Stalinist aesthetics. Its reentry into English debates on the history of Soviet aesthetics promises to re-orient our sense of the basic coordinates of a Marxist art theory.
Provides comprehensive coverage of the fundamentals of mesoscopic thermodynamics Mesoscopic Thermodynamics for Scientists and Engineers presents a unified conceptual approach to the core principles of equilibrium and nonequilibrium thermodynamics. Emphasizing the concept of universality at the mesoscale, this authoritative textbook provides the knowledge required for understanding and utilizing mesoscopic phenomena in a wide range of new and emerging technologies. Divided into two parts, Mesoscopic Thermodynamics for Scientists and Engineers opens with a concise summary of classical thermodynamics and nonequilibrium thermodynamics, followed by a detailed description of fluctuations and local (spatially-dependent) properties. Part II presents a universal approach to specific meso-heterogeneous systems, illustrated by numerous examples from experimental and computational studies that align with contemporary research and engineering practice. Bridges the gap between conventional courses in thermodynamics and real-world practice Provides in-depth instruction on applying thermodynamics to current problems involving meso- and nano-heterogeneous systems Contains a wealth of examples of simple and complex fluids, polymers, liquid crystals, and supramolecular equilibrium and dissipative structures Includes practical exercises and references to textbooks, monographs, and journal articles in each chapter Mesoscopic Thermodynamics for Scientists and Engineers is an excellent textbook for advanced undergraduate and graduate students in physics, chemistry, and chemical, mechanical, and materials science engineering, as well as an invaluable reference for engineers and researchers engaged in soft-condensed matter physics and chemistry, nanoscience and nanotechnology, and mechanical, chemical, and biomolecular engineering.
This volume first introduces the mathematical tools necessary for understanding and working with a broad class of applied stochastic models. The toolbox includes Gaussian processes, independently scattered measures such as Gaussian white noise and Poisson random measures, stochastic integrals, compound Poisson, infinitely divisible and stable distributions and processes. Next, it illustrates general concepts by handling a transparent but rich example of a OC teletraffic modelOCO. A minor tuning of a few parameters of the model leads to different workload regimes, including Wiener process, fractional Brownian motion and stable L(r)vy process. The simplicity of the dependence mechanism used in the model enables us to get a clear understanding of long and short range dependence phenomena. The model also shows how light or heavy distribution tails lead to continuous Gaussian processes or to processes with jumps in the limiting regime. Finally, in this volume, readers will find discussions on the multivariate extensions that admit a variety of completely different applied interpretations. The reader will quickly become familiar with key concepts that form a language for many major probabilistic models of real world phenomena but are often neglected in more traditional courses of stochastic processes. Sample Chapter(s). Chapter 1: Preliminaries (367 KB). Contents: Preliminaries: Random Variables: A Summary; From Poisson to Stable Variables; Limit Theorems for Sums and Domains of Attraction; Random Vectors; Random Processes: Random Processes: Main Classes; Examples of Gaussian Random Processes; Random Measures and Stochastic Integrals; Limit Theorems for Poisson Integrals; L(r)vy Processes; Spectral Representations; Convergence of Random Processes; Teletraffic Models: A Model of Service System; Limit Theorems for the Workload; Micropulse Model; Spacial Extensions. Readership: Graduate students and researchers in probability & statist
Gaussian processes can be viewed as a far-reaching infinite-dimensional extension of classical normal random variables. Their theory presents a powerful range of tools for probabilistic modelling in various academic and technical domains such as Statistics, Forecasting, Finance, Information Transmission, Machine Learning - to mention just a few. The objective of these Briefs is to present a quick and condensed treatment of the core theory that a reader must understand in order to make his own independent contributions. The primary intended readership are PhD/Masters students and researchers working in pure or applied mathematics. The first chapters introduce essentials of the classical theory of Gaussian processes and measures with the core notions of reproducing kernel, integral representation, isoperimetric property, large deviation principle. The brevity being a priority for teaching and learning purposes, certain technical details and proofs are omitted. The later chapters touch important recent issues not sufficiently reflected in the literature, such as small deviations, expansions, and quantization of processes. In university teaching, one can build a one-semester advanced course upon these Briefs.
This text considers a specific Volterra integral operator and investigates its degree of compactness in terms of properties of certain kernel functions. In particular, under certain optimal integrability conditions the entropy numbers $e_n(T_{\rho, \psi})$ satisfy $c_1\norm{\rho\psi}_r0$.
This groundbreaking work by one of the world's foremost theoreticians of Russian literature, culture, and thought gives for the first time an extensive and detailed examination of the development of Russian thought during the late Soviet period. Countering the traditional view of an intellectual wilderness under the Soviet regime, Mikhail Epstein offers a systematic account of Russian thought in the second half of the 20th century. In doing so, he provides new insights into previously ignored areas such as Russian liberalism, personalism, structuralism, neo–rationalism, and culturology. Epstein shows how Russian philosophy and culture has long been trapped in an intellectual prison of its own making as it sought to create its own utopia. However, he demonstrates that it is time to reappraise Russian philosophical thought and cultural theory, now freed from the bonds of totalitarianism. We are left with not only a new and exciting interpretation of Russian thought, but also an opportunity to rethink our own intellectual heritage.
Mr. Wolkenstein's Physical Approaches to Biological Evolution, whether or not it proves to give the ultimate truth on the matters with which it deals, certainly deserves, by its breadth and scope and profundity, to be considered an impor tant event in the philosophical world." This is a quotation from an introduction written by Bertrand Russell for Ludwig Wittgenstein's Tractatus Logico-Philosophicus. I exchanged only name and subject. As for the rest, I could continue quoting Russell, but I would rather say something myself. As Wittgenstein did with formal logic, Wolkenstein rectifies our views on how to approach the logic of life from a formal theoretical basis. Many bio logists do not believe that their subject lends itself to the scrutiny of physical theory. They certainly admit that one can simulate biological phenomena by models that can be expressed in a mathematical form. However, they do not believe that biology can be given a theoretical foundation that is defined within the general framework of physics. Rather, they insist on a holistic approach, banning any reduction to fundamental principles subject to physical theory.
This monograph examines magnetization dynamics at elevated temperatures which can be described by the stochastic Landau-Lifshitz-Gilbert equation (SLLG). The first part of the book studies the role of noise in finite ensembles of nanomagnetic particles: we show geometric ergodicity of a unique invariant measure of Gibbs type and study related properties of approximations of the SLLG, including time discretization and Ginzburg-Landau type penalization. In the second part we propose an implementable space-time discretization using random walks to construct a weak martingale solution of the corresponding stochastic partial differential equation which describes the magnetization process of infinite spin ensembles. The last part of the book is concerned with a macroscopic deterministic equation which describes temperature effects on macro-spins, i.e. expectations of the solutions to the SLLG. Furthermore, comparative computational studies with the stochastic model are included. We use constructive tools such as e.g. finite element methods to derive the theoretical results, which are then used for computational studies. The numerical experiments motivate an interesting interplay between inherent geometric and stochastic effects of the SLLG which still lack a rigorous analytical understanding: the role of space-time white noise, possible finite time blow-up behavior of solutions, long-time asymptotics, and effective dynamics.
From Kabbalah to Class Struggle is an intellectual biography of Meir Wiener (1893–1941), an Austrian Jewish intellectual and a student of Jewish mysticism who emigrated to the Soviet Union in 1926 and reinvented himself as a Marxist scholar and Yiddish writer. His dramatic life story offers a fascinating glimpse into the complexities and controversies of Jewish intellectual and cultural history of pre-war Europe. Wiener made a remarkable career as a Yiddish scholar and writer in the Stalinist Soviet Union and left an unfinished novel about Jewish intellectual bohemia of Weimar Berlin. He was a brilliant intellectual, a controversial thinker, a committed communist, and a great Yiddish scholar—who personally knew Lenin and Rabbi Kook, corresponded with Martin Buber and Hugo von Hofmannsthal, and argued with Gershom Scholem and Georg Lukács. His intellectual biography brings Yiddish to the forefront of the intellectual discourse of interwar Europe.
Leading graphene research theorist Mikhail I. Katsnelson systematically presents the basic concepts of graphene physics in this fully revised second edition. The author illustrates and explains basic concepts such as Berry phase, scaling, Zitterbewegung, Kubo, Landauer and Mori formalisms in quantum kinetics, chirality, plasmons, commensurate-incommensurate transitions and many others. Open issues and unsolved problems introduce the reader to the latest developments in the field. New achievements and topics presented include the basic concepts of Van der Waals heterostructures, many-body physics of graphene, electronic optics of Dirac electrons, hydrodynamics of electron liquid and the mechanical properties of one atom-thick membranes. Building on an undergraduate-level knowledge of quantum and statistical physics and solid-state theory, this is an important graduate textbook for students in nanoscience, nanotechnology and condensed matter. For physicists and material scientists working in related areas, this is an excellent introduction to the fast-growing field of graphene science.
This groundbreaking work by one of the world's foremost theoreticians of culture and scholars of Russian philosophy gives for the first time a systematic examination of the development of Russian philosophy during the late Soviet period. Countering the traditional view of an intellectual wilderness under the Soviet regime, Mikhail Epstein provides a comprehensive account of Russian thought of the second half of the 20th century that is highly sophisticated without losing clarity. It provides new insights into previously mostly ignored areas such as late-Soviet Russian nationalism and Eurasianism, religious thought, cosmism and esoterism, and postmodernism and conceptualism. Epstein shows how Russian philosophy has long been trapped in an intellectual prison of its own making as it sought to create its own utopia. However, he demonstrates that it is time to reappraise Russian thought, now freed from the bonds of Soviet totalitarianism and ideocracy but nevertheless dangerously engaged into new nationalist aspirations and metaphysical radicalism. We are left with not only a new and exciting interpretation of recent Russian intellectual history, but also the opportunity to rethink our own philosophical heritage.
Each year a large number of first rate articles on the physics and technology of semiconductor devices, written by Soviet experts in the field, are published. However, due to the lack of exchange and personal contact, most of these, unfortunately, are neglected by many scientists from the United States, Japan as well as Western Europe. Consequently, many important developments in semiconductor physics are missed by the Western world.This book is a serious attempt to bridge the gap between the Soviet and Western scientific communities. Most of all, it is an effort towards facilitating the communication and sharing of knowledge amongst people from different parts of the world. Ultimately, the aim is to contribute towards the building of a better world for all ? one where the knowledge of advanced technology and scientific discoveries is used to improve the quality of life and not the pursuit of selfish mutually destructive behavior. For those in the field who wish to partake in this exchange of knowledge and as a gesture of support for their Soviet counterparts, the reading of this book provides the first step.
This book features the refereed proceedings of the 2nd International Symposium on Computer Science in Russia held in September 2007. The 35 papers cover theory track deals with algorithms, protocols, and data structures; complexity and cryptography; formal languages, automata and their applications to computer science; computational models and concepts; proof theory; and applications of logic to computer science. Many applications are presented.
In Der Nister's Soviet Years, author Mikhail Krutikov focuses on the second half of the dramatic writing career of Soviet Yiddish writer Der Nister, pen name of Pinhas Kahanovich (1884–1950). Krutikov follows Der Nister's painful but ultimately successful literary transformation from his symbolist roots to social realism under severe ideological pressure from Soviet critics and authorities. This volume reveals how profoundly Der Nister was affected by the destruction of Jewish life during WWII and his own personal misfortunes. While Der Nister was writing a history of his generation, he was arrested for anti-government activities and died tragically from a botched surgery in the Gulag. Krutikov illustrates why Der Nister's work is so important to understandings of Soviet literature, the Russian Revolution, and the catastrophic demise of the Jewish community under Stalin.
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.