Introduction to Solid-State Theory is a textbook for graduate students of physics and materials science. It also provides the theoretical background needed by physicists doing research in pure solid-state physics and its applications to electrical engineering. The fundamentals of solid-state theory are based on a description by delocalized and localized states and - within the concept of delocalized states - by elementary excitations. The development of solid-state theory within the last ten years has shown that by a systematic introduction of these concepts, large parts of the theory can be described in a unified way. This form of description gives a "pictorial" formulation of many elementary processes in solids, which facilitates their understanding.
This Data Handbook is a updated and largely extended new edition of the book "Semiconductors: Basic Data". The data of the former edition have been updated and a complete representation of all relevant basic data is now given for all known groups of semiconducting materials.
Vols. III/17a-i and III/22a, b (supplement) on semiconductor physics and technology have been published earlier, the latter covering new data on the technologically important group IV elements and III-V, II-VI and I-VII compounds only. The wealth of further data from the last decade is now being critically evaluated by over 30 well-known experts in the field of semiconductors. To meet the demands of todays scientists and to offer a complete overview on semiconductor data all data available so far are published in the following way: a series of seven subvolumes covers only the supplementary data to volumes III/17 and 22.
Vols. III/17a-i and III/22a, b (supplement) on semiconductor physics and technology have been published earlier, the latter covering new data on the technologically important group IV elements and II-V, II-VI and I-VII compounds only. The wealth of further data from the last decade is now being critically evaluated by over 30 well known experts in the field of semiconductors. To meet the demands of today's scientists and to offer a complete overview on semiconductor data all data available so far are published in the following way: a series of seven subvolumes covers only the supplementary data to volumes III/17 and 22. Enclosed to each subvolumes, a CD-ROM contains a complete, revised and update edition of all relevant data. For each individual substance the information is presented in user friendly documents, containing data, figures and references. Easy access to the documents is provided via substance and property keywords, listings and full text retrieval.
Containing the basic data and a full list of contents of the definitive Landolt-Bornstein volumes from which the data was drawn, this volume provides an invaluable information bridge from the library to the laboratory. The second edition, combining two previous volumes, contains the latest data and further information about semiconducting substances.
Volume 19 of Group III (Crystal and Solid State Physics) deals with magnetic properties of metals, alloys and metallic compounds. The amount of information available in this field is so substantial that several sub- volumes are needed to cover it all. Subvolumes III/19a through III/19f treat the intrinsic magnetic properties, i.e. those magnetic properties which depend only on the chemical composition and the crystal structure. So far, subvolumes III/19a, III/19b, III/19c, III/19d2, III/19e1 and III/19e2 have appeared. The present subvolume III/19d1 is concerned with rare earth elements, their hydrides, and alloys between rare earth elements. Subvolume III/19f where data of actinide elements are compiled and which also contains an index of substances for subvolumes III/19a...f, is due in the near future. Data on the properties that depend on the preparation of the samples measured, as for instance, thin films or liquid-quenched alloys have been published in subvolumes III/19g and III/19h. The magnetic alloys used in technical applications (soft and hard magnetic alloys, Invar and Elinvar alloys) will be dealt with in subvolume III/19i, the last of the subvolumes of III/19.
Volume 19 of Group III (Crystal and Solid State Physics) deals with the magnetic properties of metals, alloys and metallic compounds. The amount of information available in this field is so substantial that several subvolumes are needed to cover it all. Subvolumes III/19a through III/19f treat the intrinsic magnetic properties, i.e. those magnetic properties which depend only on the chemical composition and the crystal structure. So far, subvolumes III/19a, III/19b, III/19c, III/19e1 and III/19e2 have appeared. III/19d1 and III/19d2 will follow shortly. Data on the properties that depend on the preparation of the samples measured, as for instance, thin films, amorphous alloys or the magnetic alloys used in technical applications, are being compiled in the last subvolumes of III/19: III/19g (Thin Films) which came out in 1988, the present subvolume III/19h which covers the magnetic properties of liquid quenched alloys containing transition elements, and III/19i.
Vols. III/17a-i and III/22a,b (supplement) on semiconductor physics and technology have been published earlier, the latter covering new data on the technologically important group IV elements, IV-IV and III-V compounds only. The wealth of further data from the last decade is now being critically evaluated by over 30 well-known experts in the field of semiconductors. To meet the demands of today's scientists and to offer a complete overview on semiconductor data all data available so far are published in the following way: a series of eight subvolumes cover only the supplementary data to vols. III/17 and 22. Enclosed to each subvolume, a CD-ROM contains a complete, revised and update edition of all relevant data. For each individual substance the information is presented in userfriendly documents, containing numerical data, figures and references. Easy access to the documents is provided via substance and property keywords, listing and full text retrieval.
Over the last two decades, Eastern psychology has provided fertile ground for therapists, as a cornerstone, a component, or an adjunct of their work. In particular, research studies are identifying the Buddhist practice of mindfulness—a non-judgmental self-observation that promotes personal awareness—as a basis for effective interventions for a variety of disorders. The Clinical Handbook of Mindfulness is a clearly written, theory-to-practice guide to this powerful therapeutic approach (and related concepts in meditation, acceptance, and compassion) and its potential for treating a range of frequently encountered psychological problems. Key features of the Handbook: A neurobiological review of how mindfulness works. Strategies for engaging patients in practicing mindfulness. Tools and techniques for assessing mindfulness. Interventions for high-profile conditions, including depression, anxiety, trauma Special chapters on using mindfulness in oncology and chronic pain. Interventions specific to children and elders, Unique applications to inpatient settings. Issues in professional training. Appendix of exercises. The Clinical Handbook of Mindfulness includes the contributions of some of the most important authors and researchers in the field of mindfulness-based interventions. It will have wide appeal among clinicians, researchers, and scholars in mental health, and its potential for application makes it an excellent reference for students and trainees.
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