Conduction in Non-Crystalline Materials


Book Description

This second edition deals in an elementary way with electrons in non-crystalline systems. It reflects advances in the theory of interactions in non-crystalline systems, provides a more detailed discussion of the "minimum metallic conductivity", and addresses the relevance of disorder in the new high-temperature semiconductors.




Sir Nevill Mott


Book Description

This volume contains a discriminating selection of papers with commentaries by one of the most creative theoretical physicists of our century, Nobel Laureate Sir Nevill Mott. His pioneering contributions (1928 - 1993) include Fermi liquid theory, metal-insulator transition, the theory of noncrystalline materials, high-temperature superconductivity and many other discoveries.




Electronic Processes in Non-Crystalline Materials


Book Description

A reissue of a classic Oxford text. The book sets out theoretical concepts and makes comparisons with experiments for a wide variety of phenomena in non-crystalline materials.




Conduction in Non-crystalline Materials


Book Description

Introduces the theoretical aspects of conduction processes in an unusually wide range of non-crystalline materials. Simple, up-to-date accounts.




Nanostructured And Non-crystalline Materials - Proceedings Of The Fourth International Workshop On Non-crystalline Solids


Book Description

These proceedings focus on nanostructured and non-crystalline materials, including amorphous and multiphase systems, fine particles and granular systems, thin films, polymers and other disordered systems. The topics covered are: fabrication and processing techniques; relaxation, diffusive processes and molecular motions; structure and crystallization phenomena; electric and magnetic properties; and technological applications.




Trends In Non-crystalline Solids - Proceedings Of The Third International Workshop On Non-crystalline Solids


Book Description

The automatic generation of parallel code from high level sequential description is of key importance to the wide spread use of high performance machine architectures. This text considers (in detail) the theory and practical realization of automatic mapping of algorithms generated from systems of uniform recurrence equations (do-lccps) onto fixed size architectures with defined communication primitives. Experimental results of the mapping scheme and its implementation are given.




World Scientific Reference Of Amorphous Materials, The: Structure, Properties, Modeling And Main Applications (In 3 Volumes)


Book Description

Amorphous solids (including glassy and non-crystalline solids) are ubiquitous since the vast majority of solids naturally occurring in our world are amorphous. Although the field is diverse and complex, this three-volume set covers the vast majority of the important concepts needed to understand these materials and their principal practical applications. One volume discusses the most important subset of amorphous insulators, namely oxide glasses; the other two volumes discuss the most important subsets of amorphous semiconductors, namely tetrahedrally coordinated amorphous semiconductors and amorphous and glassy chalcogenides. Together these three volumes provide a comprehensive set of theoretical concepts and practical information needed to become conversant in the field of amorphous materials. They are suitable for advanced graduate students, postdoctoral research associates, and researchers wishing to change fields or sub-fields.The topics covered in these three volumes include (1) concepts for understanding the structures of amorphous materials, (2) techniques to characterize the structural, electronic, and optical properties of amorphous materials, (3) the roles of defects in affecting the electronic and optical properties of amorphous materials, and (4) the concepts for understanding practical devices and other applications of amorphous materials. Applications discussed in these volumes include transistors, solar cells, displays, bolometers, fibers, non-volatile memories, vidicons, photoresists, and optical disks.




Non-Crystalline Chalcogenicides


Book Description

The earliest experimental data on an oxygen-free glass have been published by Schulz-Sellack in 1870 [1]. Later on, in 1902, Wood [2], as well as Meier in 1910 [3], carried out the first researches on the optical properties of vitreous selenium. The interest in the glasses that exhibit transparency in the infrared region of the optical spectrum rose at the beginning of the twentieth century. Firstly were investigated the heavy metal oxides and the transparency limit was extended from (the case of the classical oxide glasses) up to wavelength. In order to extend this limit above the scientists tried the chemical compositions based on the elements of the sixth group of the Periodic Table, the chalcogens: sulphur, selenium and tellurium. The systematic research in the field of glasses based on chalcogens, called chalcogenide glasses, started at the middle of our century. In 1950 Frerichs [4] investigated the glass and published the paper: “New optical glasses transparent in infrared up to 12 . Several years later he started the study of the selenium glass and prepared several binary glasses with sulphur [5]. Glaze and co-workers [6] developed in 1957 the first method for the preparation of the glass at the industrial scale, while Winter-Klein [7] published reports on numerous chalcogenides prepared in the vitreous state.




Amorphous Chalcogenide Semiconductors and Related Materials


Book Description

This book provides introductory, comprehensive, and concise descriptions of amorphous chalcogenide semiconductors and related materials. It includes comparative portraits of the chalcogenide and related materials including amorphous hydrogenated Si, oxide and halide glasses, and organic polymers. It also describes effects of non-equilibrium disorder, in comparison with those in crystalline semiconductors.




Amorphous Semiconductors


Book Description

This book explains how to use computer modelling to understand amorphous semiconductors for researchers in solid state physics and semiconductor engineering.