Listing 1 - 10 of 536 | << page >> |
Sort by
|
Choose an application
Nuclear Magnetic Resonance (NMR) is based on the fact that certain nuclei exhibit a magnetic moment, orient by a magnetic field, and absorb characteristic frequencies in the radiofrequency part of the spectrum. The spectral lines of the nuclei are highly influenced by the chemical environment i.e. the structure and interaction of the molecules. NMR is now the leading technique and a powerful tool for the investigation of the structure and interaction of molecules. The present Landolt-Börnstein volume III/35 Nuclear Magnetic Resonance (NMR) Data is therefore of major interest to all scientists and engineers who intend to use NMR to study the structure and the binding of molecules. Volume III/35 ''NMR-Data'' is divided into several subvolumes and parts. Subvolume III/35A contains the nuclei B-11 and P-31, subvolume III/35B contains the nuclei F-19 and N-15, subvolume III/35C contains the nucleus H-1, subvolume III/35D contains the nucleus C-13, subvolume III/35E contains the nucleus O-17, and subvolume III/35G contains the nucleus Se-77. More nuclei will be presented later.
Condensed Matter Physics. --- Solid State Physics. --- Spectroscopy and Microscopy.
Choose an application
The present volume was begun by the late Dr. H.-O. Kalinowski, Justus-Liebig-Universität, Gießen, 13 Germany who could not continue the work on it. His books about the theory and applications of C NMR are well known and helpful to many chemists. The authors and the editors dedicate the volume to the memory of Dr. H.-O. Kalinowski. Nuclear Magnetic Resonance (NMR) is based on the fact that certain nuclei exhibit a magnetic moment, oriented by a magnetic field, and absorb characteristic frequencies in the radiofrequency part of the spectrum. The spectral lines of the nuclei are highly influenced by the chemical environment, i.e. the structure and interaction of the molecules. Magnetic properties of nuclei have been known since 1924 and the first Nuclear Magnetic Resonance experiment was performed in 1945. NMR is now the leading technique and a powerful tool for the investigation of the structure and interaction of molecules. The present Landolt-Börnstein volume III/35 "Nuclear Magnetic Resonance (NMR) Data" is therefore of major interest to all scientists and engineers who intend to use NMR to study the structure and the binding of molecules.
Physics. --- Physics, general. --- Solid State Physics. --- Spectroscopy and Microscopy.
Choose an application
Nuclear Magnetic Resonance (NMR) is based on the fact that certain nuclei exhibit a magnetic moment, oriented by a magnetic field, and absorb characteristic frequencies in the radiofrequency part of the spectrum. NMR is now a leading technique and a powerful tool for the investigation of the structure and interaction of molecules. The present Landolt-Börnstein volume III/35 "Nuclear Magnetic Resonance (NMR) Data" is therefore of major interest to all scientists and engineers who use NMR to study the structure and the binding of molecules. Volume III/35 "NMR-Data" is divided into several subvolumes and parts. Subvolume III/35A contains the nuclei B-11 and P-31, subvolume III/35B contains the nuclei F-19 and N-15, subvolume III/35C contains the nucleus H-1, subvolume III/35D contains the nucleus C-13, subvolume III/35E contains the nucleus O-17, and subvolume III/35G contains the nucleus Se-77. More nuclei are planned for future volumes.
Physics. --- Physics, general. --- Solid State Physics. --- Spectroscopy and Microscopy.
Choose an application
Nuclear Magnetic Resonance (NMR) is based on the fact that certain nuclei exhibit a magnetic moment, oriented by a magnetic field, and absorb characteristic frequencies in the radiofrequency part of the spectrum. The spectral lines of the nuclei are highly influenced by the chemical environment, i.e. the structure and interaction of the molecules. NMR is now the leading technique and a powerful tool for the investigation of the structure and interaction of molecules. The present Landolt-Börnstein volume III/40A "Nuclear Magnetic Resonance Data, Chemical Shifts and Coupling Constants for Boron-11" appears as a supplement volume to Landolt-Börnstein's New Series Group III, Volume 35, Subvolume A. Included in this volume are simple boranes, boron macrocycles, dendrimers, and polymers.
Condensed Matter Physics. --- Solid State Physics. --- Spectroscopy and Microscopy.
Choose an application
Choose an application
This book covers various aspects of characterization of materials in the areas of metals, alloys, steels, welding, nanomaterials, intermetallic, and surface coatings. These materials are obtained by different methods and techniques like spray, mechanical milling, sol-gel, casting, biosynthesis, and chemical reduction among others. Some of these materials are classified according to application such as materials for medical application, materials for industrial applications, materials used in the oil industry and materials used like coatings. The authors provide a comprehensive overview of structural characterization techniques including scanning electron microscopy (SEM), X-ray diffraction (XRD), transmission electron microscopy (TEM), Raman spectroscopy, image analysis, finite element method (FEM), optical microscopy (OM), energy dispersive spectroscopy (EDS), Fourier transform infrared spectroscopy (FTIR), differential thermal analysis (DTA), differential scanning calorimetry (DSC), ultraviolet–visible spectroscopy (UV-Vis), infrared photo-thermal radiometry (IPTR), electrochemical impedance spectroscopy (EIS), thermogravimetry analysis (TGA), thermo luminescence (TL), photoluminescence (PL), high resolution transmission electron microscopy (HRTEM), and radio frequency (RF). The book includes theoretical models and illustrations of characterization properties—both structural and chemical.
Materials science. --- Spectroscopy. --- Microscopy. --- Metals. --- Characterization and Evaluation of Materials. --- Spectroscopy and Microscopy. --- Metallic Materials.
Choose an application
The present volume III/48 is a supplement to the earlier volumes III/20, III/31 and III/39 of nuclear quadrupole resonance spectroscopy (NQRS) data of condensed substances. Compilation of the original data in the form of numeric database is continuing and the present supplement covers a period from August, 1995 to the end of 2006. There are 2,535 entries in this supplement and, therefore, the four volumes together provide about 14,400 data which have been published since the discovery of NQRS in 1951 until the end of 2006. Due to the large amount of data the present supplement is published in two subvolumes, III/48A (1270 entries) and III/48B (1265 entries), respectively. The present supplement gives NQRS data of substances new to the database as well as new and/or revised data for substances already reported in the previous volumes. In the latter case, not only the changes are provided but also the entire revised entry is reproduced so that the reader need not look for the previous entry in earlier volumes for the same substance. Thus, readers are advised to try to find the substance of interest first in this volume III/48 and then proceed backwards to volumes III/39, III/31 and III/20. Also, for the sake of readers' convenience, Chapters 1 and 2 have been reproduced from volume III/39 (except for the eigenvalue tables in Sects. 2. 8 through to 2. 10 of volume III/39), with minor modifications that adapt to this supplement.
Choose an application
This book presents the state of the art concerning the fundamental aspects of semi-solid processing of alloys and composites, together with the industrial applications. The fundamental aspects include both the microstructure development and characterization, and the rheology of alloy slurries with special attention to both experimental determination and modeling. The industrial applications are also surveyed and particular consideration is given to recent developments in slurry formation. Foreword provided by Prof. Merton C Flemings (MIT), the father and originator of semi-solid processing.
Material Science. --- Structural Materials. --- Metallic Materials. --- Industrial and Production Engineering. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Materials. --- Industrial engineering. --- Matériaux --- Génie industriel
Choose an application
Designed for graduate students in mechanical engineering, this textbook discusses the basic concepts of superconducting magnet technology. Important topics covered include field distribution, magnets, force, thermal stability, dissipation, and protection. To help the students excel in the field, each chapter contains tutorial problems, accompanied by solutions, utilizing solenoidal magnets as examples.
Superconducting magnets. --- Magnetic properties of solids --- Physics. --- Condensed matter. --- Solid state physics. --- Crystallography. --- Spectroscopy. --- Microscopy. --- Materials science. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Condensed Matter Physics. --- Characterization and Evaluation of Materials. --- Surfaces (Physics). --- Crystallography and Scattering Methods. --- Superconducting magnets --- Stability.
Choose an application
Proceedings of the Eleventh Latin American Conference on the Applications of the Mössbauer Effect, La Plata, Argentina, 9-14 November 2008. The broad scope of the Applications of the Mössbauer Effect to interdisciplinary subjects makes this volume an outstanding source of information to researchers and graduate students, who will find the unique results of Mössbauer spectroscopy a valuable aid and complement to their research in conjunction with other techniques. In this volume, applications to mineralogy, catalysis, soil science, amorphous materials, nanoparticles, magnetic materials, nanotechnology, metallurgy, corrosion, and magnetism, have been put together in original works produced by invited speakers and different research teams across the continent. Reprinted from Hyperfine Interactions (HYPE) Volume.
Hyperfine interactions. --- Mössbauer effect -- Congresses. --- Solid state physics. --- Physics --- Physical Sciences & Mathematics --- Atomic Physics --- Light & Optics --- Mössbauer effect --- Mössbauer spectroscopy --- Physics. --- Spectroscopy. --- Microscopy. --- Solid State Physics. --- Spectroscopy and Microscopy. --- Fluorescence --- Nuclear physics --- Photons --- Quantum theory --- Radiation
Listing 1 - 10 of 536 | << page >> |
Sort by
|