Listing 1 - 9 of 9 |
Sort by
|
Choose an application
548 --- Crystallography --- Crystals, structure --- Crystallography. --- Crystals, structure. --- 548 Crystallography --- Cristaux
Choose an application
Classification of minerals. --- Crystals structure. --- Mineralogy. --- Names of minerals. --- Silicates.
Choose an application
Classification of minerals. --- Crystals structure. --- Mineralogy. --- Names of minerals. --- Silicates.
Choose an application
Crystals --- Structure --- Refining --- Data processing --- Crystals - Structure --- Crystals - Refining --- Crystals - Data processing
Choose an application
fysicochemie --- Chemical and physical cristallography --- Crystals --- Powders --- Structure. --- Optical properties --- Measurement. --- X-ray crystallography. --- Chemical and physical crystallography --- Crystals - Structure. --- Powders - Optical properties - Measurement. --- Acqui 2006
Choose an application
Physical properties of aperiodic crystals present some theoretical challenges due to the lack of three-dimensional periodicity. For the description of the structure there is a periodic representation in higher-dimensional space. For physical properties, however, this scheme cannot be used because the mapping between interatomic forces and the high-dimensional representation is not straightforward. In this chapter methods are described to deal with these problems. First, the hydrodynamic theory of aperiodic crystals and then the phonons and phasons theory are developed and illustrated with some examples. The properties of electrons in aperiodic crystals are also presented. Finally, the experimental findings of phonon and phason modes for modulated and quasicrystals are presented. The chapter also discusses diffuse scattering, the Debye–Waller factor, and electrical conductivity.
Molecular crystals --- Layer structure (Solids) --- Solid state physics. --- Crystallography. --- Aperiodicity. --- Structure cristalline (solides) --- Physique de l'état solide. --- Cristallographie. --- Cristaux moléculaires --- Chaos (théorie des systèmes) --- Structure. --- Structure --- Molecular crystals - Structure
Choose an application
Physical properties and models of electronic structure are analyzed for a new class of high-TC superconductors which belong to iron-based layered compounds. Despite their variable chemical composition and differences in the crystal structure, these compounds possess similar physical characteristics, due to electron carriers in the FeAs layers and the interaction of these carriers with fluctuations of the magnetic order. A tremendous interest towards these materials is explained by the prospects of their practical use. In this monograph, a full picture of the formation of physical properties of these materials, in the context of existing theory models and electron structure studies, is given. The book is aimed at a broad circle of readers: physicists who study electronic properties of the FeAs compounds, chemists who synthesize them and specialists in the field of electronic structure calculations in solids. It is helpful not only to researchers active in the fields of superconductivity and magnetism, but also for graduate and postgraduate students and all those who would like to get acquaintained with this vivid area of the materials science.
Crystals -- Structure. --- High temperature superconductors -- Structure. --- High temperature superconductors. --- Physics --- Physical Sciences & Mathematics --- Thermodynamics --- Electricity & Magnetism --- Materials. --- Physics. --- Surfaces (Physics) --- Natural philosophy --- Philosophy, Natural --- Engineering --- Engineering materials --- Industrial materials --- Materials --- Surfaces (Physics). --- Low Temperature Physics. --- Solid State Physics. --- Structural Materials. --- Characterization and Evaluation of Materials. --- Engineering design --- Manufacturing processes --- Surface chemistry --- Surfaces (Technology) --- Physical sciences --- Dynamics --- Low temperature physics. --- Low temperatures. --- Solid state physics. --- Structural materials. --- Materials science. --- Material science --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Solids --- Cryogenics --- Low temperature physics --- Temperatures, Low --- Temperature --- Cold
Choose an application
Mineralogy. --- Soil mineralogy. --- Crystals structure. --- Ore deposits. --- Chemistry, Analytic. --- Rocks. Minerals --- Flanders --- Delfstoffen . Vlaanderen --- 564 --- 549.22 --- 549.231.1 --- 554.913 --- 554.913.1 --- BRAB34, CAMP34, KUST, VLAVAL, ALL, VARCAMP, MEUSE2 --- 1, 2, 3, 4 --- PHYSS, PHYSA, PHYSGR, LEX, CHIM, MINER, CAR, ENV, HYDRO, PROSENER, PROSRAD --- 553 <493.1) --- 553.2 --- #A9701A --- Gullentops Frans en Wouters Laurent --- geologie --- bodemkunde --- Vlaanderen --- platentektoniek --- natuursteen --- bouwmaterialen --- klei --- energie --- ertsen --- mineralen --- afvalproblemen --- ruimtelijke ordening --- aardgas --- milieueffectrapportering --- keramische delfstoffen --- water --- 553 --- delfstoffen --- België --- Aardgas --- Delfstoffen --- Energie --- Energie-geothermisch --- Erts --- Gas --- Geologie --- Granulaten --- Grind --- Klei --- Koolwaterstoffen --- Ligniet --- Ontginning --- Radioactief afval --- Ruimtelijke ordening --- Steenkool --- Stenen --- Turf --- Water-grond --- Zand --- 553.2 Ore formation. Mineral formation --- Ore formation. Mineral formation --- 553 <493.1) Economic geology. Mineral deposits --- Economic geology. Mineral deposits --- geologie van België --- Geologie van België --- Zandsteen --- Kalkzandstenen --- Krijtsteen --- Ertsen --- IJzer (metaal) --- Zout --- Grondwater --- Drinkwatervoorziening --- Mijnbouw --- Monograph --- Delfstof --- Kalkzandsteen --- Krijtgesteente --- Spriet --- Ijzer (metaal) --- Zout (smaak) --- Belasting (fiscaal) --- Emigratie
Choose an application
This book by Lev M. Blinov is ideal to guide researchers from their very first encounter with liquid crystals to the level where they can perform independent experiments on liquid crystals with a thorough understanding of their behaviour also in relation to the theoretical framework. Liquid crystals can be found everywhere around us. They are used in virtually every display device, whether it is for domestic appliances of for specialized technological instruments. Their finely tunable optical properties make them suitable also for thermo-sensing and laser technologies. There are many monographs written by prominent scholars on the subject of liquid crystals. The majority of them presents the subject in great depth, sometimes focusing on a particular research aspect, and in general they require a significant level of prior knowledge. In contrast, this books aims at an audience of advanced undergraduate and graduate students in physics, chemistry and materials science. The book consists of three parts: the first part, on structure, starts from the fundamental principles underlying the structure of liquid crystals, their rich phase behaviour and the methods used to study them; the second part, on physical properties, emphasizes the influence of anisotropy on all aspects of liquid crystals behaviour; the third, focuses on electro-optics, the most important properties from the applications standpoint. This part covers only the main effects and illustrates the underlying principles in greater detail. Professor Lev M. Blinov has had a long carrier as an experimentalist. He made major contributions in the field of ferroelectric mesophases. In 1985 he received the USSR state prize for investigations of electro-optical effects in liquid crystals for spatial light modulators. In 1999 he was awarded the Frederiks medal of the Soviet Liquid Crystal Society and in 2000 he was honoured with the G. Gray silver medal of the British Liquid Crystal Society. He has held many visiting academic positions in universities and laboratories across Europe and in Japan.
Liquid crystals -- Electric properties. --- Liquid crystals -- Magnetic properties. --- Liquid crystals -- Optical properties. --- Liquid crystals -- Structure. --- Liquid crystals -- Thermal properties. --- Liquid crystals. --- Molecular structure. --- Liquid crystals --- Physics --- Chemical & Materials Engineering --- Physical Sciences & Mathematics --- Engineering & Applied Sciences --- Materials Science --- Atomic Physics --- Crystals, Liquid --- Physics. --- Physical chemistry. --- Condensed matter. --- Amorphous substances. --- Complex fluids. --- Phase transitions (Statistical physics). --- Surfaces (Physics). --- Interfaces (Physical sciences). --- Thin films. --- Soft and Granular Matter, Complex Fluids and Microfluidics. --- Physical Chemistry. --- Surface and Interface Science, Thin Films. --- Optics, Lasers, Photonics, Optical Devices. --- Phase Transitions and Multiphase Systems. --- Condensed Matter Physics. --- Light sources --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Lasers. --- Photonics. --- Phase changes (Statistical physics) --- Phase transitions (Statistical physics) --- Phase rule and equilibrium --- Statistical physics --- New optics --- Optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Surfaces (Technology) --- Coatings --- Thick films --- Surface chemistry --- Surfaces (Physics) --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Complex liquids --- Fluids, Complex --- Amorphous substances --- Liquids --- Soft condensed matter --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Matter
Listing 1 - 9 of 9 |
Sort by
|