This book has a dual purpose. The first is to present in a new English translation 255 representative hokku (or haiku) poems of Matsuo Basho (1644-94), the Japanese poet who is generally considered the most influential figure in the history of the genre. The second is to make available in English a wide spectrum of Japanese critical commentary on the poems over the last three hundred years.
This book sketches the life and poetry of Kobayishi Issa, a major Japanese haiku poet, and tries to identify the sources of his bold individualism and all-embracing humanism in terms of his long and checkered carrier.
This book sketches the life and poetry of Kobayashi Issa (1763-1828), a Japanese poet popularly known as one of the Three Pillars of Haiku. While Basho with his mystic asceticism and Buson with his romantic aestheticism immeasurably enriched the haiku tradition, it was Issa who, with his bold individualism and all-embracing humanism, helped to modernize the form to a degree matched by no other poet. Based on the most recent scholarship, the book attempts to identify the sources of his originality in terms of his long checkered life. It traces his growth and maturity by examining his motherless childhood, struggling youth in Edo, wanderings in western Japan, restless existence as a haiku master, return home to Kashiwabara, three brief marriages, and last years as an old poet.
This book has a dual purpose. The first is to present in a new English translation 255 representative hokku (or haiku) poems of Matsuo Basho (1644-94), the Japanese poet who is generally considered the most influential figure in the history of the genre. The second is to make available in English a wide spectrum of Japanese critical commentary on the poems over the last three hundred years.
In this collection on the Kyoto School of Philosophy, the author offers the reader Tanabe’s religious philosophy, but also, and for the first time, his philosophy of nature and ontology. It is not only on individuum, society, and humankind, but also on the logical structure of Tanabe’s thinking, and aspects such as nature, beauty, matter, contemplation, practice, politics, religion, science, history, eternity, etcetera. A highly original work, the more as the reader becomes acquainted with Ozaki’s own creative synthetic view of the main problems of Christian-Buddhist theological, resp. philosophical encounter.
From authors renowned in the fields of engineering and biology, this is the first book to integrate sensor and actuator technology with bioinspired design. Beginning with detailed descriptions of actuation and sensing mechanisms in plants and animals, the authors move on to apply these principles to synthetic design, offering in-depth knowledge of the development of state-of-the-art smart materials and devices. All of this is supported with a range of real-world applications, from tactile sensory systems in insects linked with the development of robotic hands, to the structural colour systems in nature used to inspire camouflage technology. Further examples are given of successful designs along with their integrated autonomous systems, such as flying and swimming, unmanned systems, and autonomous zero-energy building design. With a wide interdisciplinary appeal, this is an ideal resource for any student, practising engineer, or researcher interested in the connection between natural systems and synthetic design.
This three-chapter volume concerns the distributions of certain functionals of Lévy processes. The first chapter, by Makoto Maejima, surveys representations of the main sub-classes of infinitesimal distributions in terms of mappings of certain Lévy processes via stochastic integration. The second chapter, by Lars Nørvang Andersen, Søren Asmussen, Peter W. Glynn and Mats Pihlsgård, concerns Lévy processes reflected at two barriers, where reflection is formulated à la Skorokhod. These processes can be used to model systems with a finite capacity, which is crucial in many real life situations, a most important quantity being the overflow or the loss occurring at the upper barrier. If a process is killed when crossing the boundary, a natural question concerns its lifetime. Deep formulas from fluctuation theory are the key to many classical results, which are reviewed in the third chapter by Frank Aurzada and Thomas Simon. The main part, however, discusses recent advances and developments in the setting where the process is given either by the partial sum of a random walk or the integral of a Lévy process.
A book showcasing the projects of Japanese architecture firm Suppose Design Office, founded by Makoto Tanijiri and Ai Yoshida. This is the first collection of works from the viewpoint of multiplicity and the design thinking of the creative team at Suppose Design Office, who are always seeking for something new. Based on an architectural perspective, the firm defines its work as discovering fresh ideas, new styles of buildings and new relationships between all interactive elements. They have designed workspaces, landscapes, products, art installations and more than 100 houses. Their interest in the problem-solving and creative challenges of architecture extends through all scales and budgets from ‘doghouses to skyscrapers’. Both the new and the familiar inform their search for fresh solutions to the issues of everyday life, which is explained in this book. This monograph offers an exclusive peek into the working life of a world-renowned design firm. By explaining the design processes for creating interior architecture, it is a vital book for anyone in the design industry, from interior designer to manufacturer, and from architect to space designer, as well as students, agencies and professionals in the whole design sector. About the Author Makoto Tanijiri is one of the founding architects of Suppose Design Office. He is also a professor at Musashino Art University, Osaka University of Arts and Anabuki Design College. Ai Yoshida is one of the founding architects of Suppose Design Office. Features - Readers gain complete insight in the working methods of the architectural firm Suppose Design Office. - In-depth features of the different design projects realised by the firm’s founders Makoto Tanijiri and Ai Yoshida their team. - This is the first ever book about the work of Suppose Design Office and gives an in-depth look at the design processes. - Tanijiri and Yoshida define their work as a chance to realise fresh ideas about buildings and the relationships of all interactive elements.
This book introduces the principles and techniques of crystal growth by the flux method, which is arguably the most useful way to obtain millimeter- to centimeter-sized single crystals for physical research. As it is possible to find an appropriate solvent (“flux”) for nearly all inorganic materials, the flux method can be applied to the growth of many crystals ranging from transition metal oxides to intermetallic compounds. Both important principles and experimental procedures are described in a clear and accessible manner. Practical advice on various aspects of the experiment, which is not readily available in the literature, will assist the beginning graduate students in setting up the lab and conducting successful crystal growth. The mechanisms of crystal growth at an elementary level are also provided to better understand the techniques and to help in assessing the quality of the crystals. The book also contains many photographs of beautiful crystals with important physical properties of current interest, such as high-temperature superconductors, strongly correlated electronic systems, topological insulators, relaxor ferroelectrics, low-dimensional quantum magnets, non-linear optical materials, and multiferroics.
The chemistry of metal oxides, both single and mixed metal oxides, relevant to heterogeneous catalysis such as relationships among the composition, structure, and chemical properties of mixed oxides, is provided in perspective. The important chemical properties in heterogeneous catalysis are acid–base and reduction–oxidation (redox) properties, where ionic radii, electronegativity, valency, and tendency to form covalent bond of constituent elements are most influential. Structural factors such as lattice defects and nonstoichiometry are also relevant. Although the surface of metal oxides is different from the solid bulk and changes depending on various factors, the surface reflects more or less the solid bulk and the knowledge of bulk properties is useful to understand the catalysis of mixed oxides. In some cases, the solid bulk actually takes part in catalysis. Other fundamental features of metal oxide catalysis like synergistic effects of more than two different active sites (acid and base, acid and oxidation, etc.) are also discussed.
Coauthored by the developer of nanophotonics,this book outlines physically intuitive concepts of the subject using a novel theoretical framework that differs from conventional wave optics. After reviewing the background, history, and current status of research and development in nanophotonics and related technologies, the authors present a unique theoretical model to describe the interactions among nanometric material systems via optical near-fields. They then explore nanophotonic devices and fabrication techniques and provide examples of qualitative innovation. The final chapter looks at how the assembly of nanophotonic devices produces a nanophotonic system.
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