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Chadaga's ambitious study proceeds from the idea that glass - in its uses as a material object and as it was depicted in works of art - is a key to understanding the evolution of Russian identity from the eighteenth century to the middle of the twentieth.
Longlist finalist, 2015 Historia Nova Prize for Best Book on Russian Intellectual and Cultural History Julia Bekman Chadaga’s ambitious study posits that glass—in its uses as a material and as captured in culture—is a key to understanding the evolution of Russian identity from the eighteenth century onward. From the contemporary perspective, it is easy to overlook how glass has profoundly transformed vision. Chadaga shows the far-reaching effects of this phenomenon. Her book examines the similarities between glass and language, the ideological uses of glass, and the material’s associations with modernity, while illuminating the work of Lomonosov, Dostoevsky, Zamyatin, and Eisenstein, among others. In particular, Chadaga explores the prominent role of glass in the discourse around Russia’s contentious relationship with the West—by turns admiring and antagonistic—as the nation crafted a vision for its own future. Chadaga returns throughout to the spectacular aspect of glass and shows how both the tendentious capacity and the playfulness of this material have shaped Russian culture.
Gives kids the opportunity to play with the images. This pack also includes punch-out cards that enhance every illusion, plus a vinyl pouch for safely storing the cards afterwards. It helps children figure out if the two differently shaped tables in a picture are actually the same size, by laying a checkered tablecloth over them both.
This handbook is an authoritative, comprehensive reference on optical networks, the backbone of today’s communication and information society. The book reviews the many underlying technologies that enable the global optical communications infrastructure, but also explains current research trends targeted towards continued capacity scaling and enhanced networking flexibility in support of an unabated traffic growth fueled by ever-emerging new applications. The book is divided into four parts: Optical Subsystems for Transmission and Switching, Core Networks, Datacenter and Super-Computer Networking, and Optical Access and Wireless Networks. Each chapter is written by world-renown experts that represent academia, industry, and international government and regulatory agencies. Every chapter provides a complete picture of its field, from entry-level information to a snapshot of the respective state-of-the-art technologies to emerging research trends, providing something useful for the novice who wants to get familiar with the field to the expert who wants to get a concise view of future trends.
Application of Optical Fiber in Engineering chronicles the recent progress in the research and development of optical fiber technology and examines present and future opportunities by presenting the latest advances on key topics such as birefringence and polarization mode dispersion characteristics, quantum communication, polymer optical fiber grating, optical fiber sensing devices and the Raman fiber laser. All the contributing authors are experts in the field, and this book contains their latest research. This book will provide an invaluable source for researchers, engineers, and advanced students in the field of optical fibers, photonics, optoelectronics, fiber lasers, and sensors.
Specialty Optical Fibers reviews theoretical and experimental photonic research relevant to the synthesis, processing, characterization, modeling, physical features, and applications of Specialty Optical Fibers (SOFs) with significant technological impact potential. All fiber-based advanced photonics device components rely on specialty optical fibers, which have either a unique waveguide structure or a novel material composition. High power optical amplifiers, high power fiber, and novel fabrication techniques for optical fiber design have enabled significant technological advances. The book provides discussion on these applications including current research directions, future opportunities and remaining challenges.Specialty Optical Fibers is suitable for researchers in academia and practitioners in R&D working in the subject areas of materials science, electrical engineering, and fiber optics. - Includes an overview of specialty optical fiber materials design and fabrication technologies - Reviews fundamentals of the most relevant optical fiber materials, including their physics, chemistry, and optoelectronics principles - Explores current research directions and future opportunities and challenges of utilization of optical fibers for a wide range of diverse applications
Building Electro-Optical Systems In the newly revised third edition of Building Electro-Optical Systems: Making It All Work, renowned Dr. Philip C. D. Hobbs delivers a birds-eye view of all the topics you’ll need to understand for successful optical instrument design and construction. The author draws on his own work as an applied physicist and consultant with over a decade of experience in designing and constructing electro-optical systems from beginning to end. The book’s topics are chosen to allow readers in a variety of disciplines and fields to quickly and confidently decide whether a given device or technique is appropriate for their needs. Using accessible prose and intuitive organization, Building Electro-Optical Systems remains one of the most practical and solution-oriented resources available to graduate students and professionals. The newest edition includes comprehensive revisions that reflect progress in the field of electro-optical instrument design and construction since the second edition was published. It also offers approximately 350 illustrations for visually oriented learners. Readers will also enjoy: A thorough introduction to basic optical calculations, including wave propagation, detection, coherent detection, and interferometers Practical discussions of sources and illuminators, including radiometry, continuum sources, incoherent line sources, lasers, laser noise, and diode laser coherence control Explorations of optical detection, including photodetection in semiconductors and signal-to-noise ratios Full treatments of lenses, prisms, and mirrors, as well as coatings, filters, and surface finishes, and polarization Perfect for graduate students in physics, electrical engineering, optics, and optical engineering, Building Electro-Optical Systems is also an ideal resource for professional designers working in optics, electro-optics, analog electronics, and photonics.