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Magnetic Neutron Scattering: Proceedings Of The Third Summer School On Neutron Scattering
Author: Albert Furrer
Publisher: World Scientific
Published: 1995-10-12
Total Pages: 284
ISBN-13: 9814548901
DOWNLOAD EBOOK →The proceedings provide a topical survey of the static and dynamical magnetic properties of condensed matter studied by neutron scattering which has been the key technique in this field for a long time. The static aspects deal with the determination of long-range ordered spin structures and magnetization densities. The dynamic aspects concentrate on the determination of magnetic excitations such as spin waves and crystal-field transitions. The use of polarized-neutron techniques is particularly emphasized. All these topics are thoroughly introduced, methodically discussed, and highlighted with recent experimental results obtained for a vast variety of magnetic materials (e.g., strongly correlated electron systems, multilayers, nanocrystals, molecular complexes, etc.) by acknowledged experts. Other experimental methods (x-ray scattering, muon spin rotation) in the study of magnetism are compared to neutron scattering.
Magnetic Neutron Diffraction
Author: Yurii A. Izyumov
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 607
ISBN-13: 1468407120
DOWNLOAD EBOOK →The inter action between the magnetic field generated by the neutron and the magnetic moment of atoms containing unpaired electrons was experimentally demonstrated for the first time about twenty years ago. The basic theory describing such an in teraction had already been developed and the first nuclear reactors with large available thermal neutron fluxes had recently been con structed. The power of the magnetic neutron interaction for in vestigating the structure of magnetic materials was immediately recognized and put to use where possible. Neutron diffraction, however, was practicable only in countries with nuclear reactors. The earliest neutron determinations of magnetic ordering were hence primarily carried out at Oak Ridge and Brookhaven in the US, at Chalk River in Canada and at Harwell in England. Diffraction patterns from polycrystalline ferromagnets and antiferromagnets are interpretable if produced by simple spin arrays. More complex magnetic scattering patterns could often be unravelled, in terms of a three-dimensional array of atomic moments, if the specimen studied is a single crystal. The devel opment of sophisticated cryogenic equipment, with independently alignable magnetic fields, opened the way to greater complexity in the magnetic structures that could be successfully determined, as did also the introduction of polarized neutron beams. By the end of the 'sixties, many countries were contributing significantly to neutron diffraction studies of a wide variety of magnetic materials.
Neutron Diffraction of Magnetic Materials
Author: I͡Uriĭ Aleksandrovich Izi͡umov
Publisher: Springer
Published: 1991
Total Pages: 360
ISBN-13:
DOWNLOAD EBOOK →Detennination of the magnetic structure of magnetic materials is a fundamental problem that can be solved by magnetic neutron diffraction techniques. By magnetic structures we refer to the mutual alignment of the magnetic moments of the atoms in a crystal and their overall alignment relative to the crystallographic axes. Some indirect, tentative data on the magnetic structure of magnetic materials can be obtained from research on their magnetic, mechanical, thermal, and other properties. But only neutron diffraction is a unique direct method of detennining the magnetic structure of a crystal. The magnetic structure of more than one thousand crystals with magnetic order has been studied during 30 years of neutron diffraction research made on reactors in a large number of laboratories in the world. The results of this research work are extensively described in the handbook Magnetic Structures Determined by Neutron Diffraction [176]; in the present book, we will often refer to this handbook. The first extensive theoretical generalization of the principles of magnetic neutron diffraction and the results of research on magnetic structures appeared in the book by Yu. A. Izyumov and R. P. Ozerov Magnetic Neutron Diffraction [24, 134].
Neutron Scattering from Magnetic Materials
Author: Tapan Chatterji
Publisher: Elsevier
Published: 2005-11-29
Total Pages: 572
ISBN-13: 0080457053
DOWNLOAD EBOOK →Neutron Scattering from Magnetic Materials is a comprehensive account of the present state of the art in the use of the neutron scattering for the study of magnetic materials. The chapters have been written by well-known researchers who are at the forefront of this field and have contributed directly to the development of the techniques described. Neutron scattering probes magnetic phenomena directly. The generalized magnetic susceptibility, which can be expressed as a function of wave vector and energy, contains all the information there is to know about the statics and dynamics of a magnetic system and this quantity is directly related to the neutron scattering cross section. Polarized neutron scattering techniques raise the sophistication of measurements to even greater levels and gives additional information in many cases. The present book is largely devoted to the application of polarized neutron scattering to the study of magnetic materials. It will be of particular interest to graduate students and researchers who plan to investigate magnetic materials using neutron scattering. · Written by a group of scientist who have contributed directly in developing the techniques described. · A complete treatment of the polarized neutron scattering not available in literature. · Gives practical hits to solve magnetic structure and determine exchange interactions in magnetic solids. · Application of neutron scattering to the study of the novel electronic materials.
Magnetic Neutron Diffraction
Author: I︠U︡riĭ Aleksandrovich Izi︠u︡mov
Publisher: Springer
Published: 1970
Total Pages: 624
ISBN-13:
DOWNLOAD EBOOK →The inter action between the magnetic field generated by the neutron and the magnetic moment of atoms containing unpaired electrons was experimentally demonstrated for the first time about twenty years ago. The basic theory describing such an in teraction had already been developed and the first nuclear reactors with large available thermal neutron fluxes had recently been con structed. The power of the magnetic neutron interaction for in vestigating the structure of magnetic materials was immediately recognized and put to use where possible. Neutron diffraction, however, was practicable only in countries with nuclear reactors. The earliest neutron determinations of magnetic ordering were hence primarily carried out at Oak Ridge and Brookhaven in the US, at Chalk River in Canada and at Harwell in England. Diffraction patterns from polycrystalline ferromagnets and antiferromagnets are interpretable if produced by simple spin arrays. More complex magnetic scattering patterns could often be unravelled, in terms of a three-dimensional array of atomic moments, if the specimen studied is a single crystal. The devel opment of sophisticated cryogenic equipment, with independently alignable magnetic fields, opened the way to greater complexity in the magnetic structures that could be successfully determined, as did also the introduction of polarized neutron beams. By the end of the 'sixties, many countries were contributing significantly to neutron diffraction studies of a wide variety of magnetic materials.
Proceedings of the Seventh Conference on Magnetism and Magnetic Materials
Author: J.A. Osborn
Publisher: Springer
Published: 2013-11-11
Total Pages: 385
ISBN-13: 148996391X
DOWNLOAD EBOOK →Papers presented at the Conference on Magnetism and Magnetic Materials, Phoenix, Arizona, November 13-16, 1961.
Frontiers of Neutron Scattering
Author: Albert Furrer
Publisher: World Scientific
Published: 1999-12-29
Total Pages: 272
ISBN-13: 9814596825
DOWNLOAD EBOOK →This book provides ideas on what neutron scattering could look like in the next millennium. In particular, nonconventional, unusual or innovative neutron scattering experiments (from both the scientific and the instrumental point of view) are described which either have novel applications or provide a new insight into science and technology. Chapters on theoretical aspects are adequately included. The scientific and technical areas cover the following topics: novel neutron scattering techniques and perspectives in neutron scattering instrumentation (including sample environment); soft condensed matter, particularly colloids and polymers; materials science and industrial applications; structure and dynamics of multilayers and nanocrystalline materials; dynamical aspects and quantum effects in molecular magnets; strongly correlated electron systems, with emphasis on dynamic correlations in low-dimensional magnets. All these topics are thoroughly introduced and discussed by acknowledged experts. Contents:Principles of Neutron Scattering:Introduction to Neutron Scattering (P Böni & A Furrer)Brillouin Scattering with Neutrons and X-Rays (B Dorner)Instrumentation for Neutron Scattering:Novel Trends in Neutron Optics (I S Anderson et al.)Methods and Perspectives of Neutron Scattering at High Pressure (S Klotz)Soft Condensed Matter:Colloids as Model Systems for Condensed Matter Physics (R Klein)Polymers, Colloids and Microemulsions: Neutron Scattering Experiments (P Schurtenberger, et al.)Molecular Magnetism:Molecular Magnetism: A School of Physics (J Villain)Neutron Scattering of Molecular Magnets (H P Andres et al.)Low-Dimensional Magnetism:Computational Probes of Collective Excitations in Low-Dimensional Magnetism (G Müller & M Karbach)Neutron Scattering (Mostly) from Low Dimensional Magnetic Systems (T G Perring)Multilayers and Nanocrystals:Future Trends in Heterostructure Research with Neutron Scattering (H Zabel)Structure and Dynamics of Nanocrystals (R Hempelmann) Readership: Materials scientists. Keywords:Neutron Scattering;Colloids;Polymers;Material Science;Nanocrystalline Material;Molecular Magnets;Brillouin Scattering;Neutron Optics;Microemulsions;Heterostructure
Supermagnets, Hard Magnetic Materials
Author: G.J Long
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 840
ISBN-13: 9401133247
DOWNLOAD EBOOK →The book you are now holding represents the final step in a long process for the editors and organizers of the Advanced Study Institute on hard magnetic materials. The editors interest in hard magnetic materials began in 1985 with an attempt to better understand the moments associated with the different iron sites in Nd Fe B. These 14 moments can be obtained from neutron diffraction studies, but we qUickly realized that iron-57 Mossbauer spectroscopy should lead to a better determination of these moments. However, it was also realized that the complex Mossbauer spectra obtained for these hard magnetic materials could not be easily understood without a broad knowledge of their various structural, electronic, and magnetic properties. Hence it seemed useful to the editors to bring together scientists and engineers to discuss, in a tutorial setting, the various properties of these and future hard magnetic materials. We believe the inclusion of engineers as well as scientists in these discussions was essential because the design of new magnetic materials depends very much upon the mode in which they are used in practical devices.
Comprehensive Approach to Neutron Diffraction
Author: Nicholas Pitt
Publisher:
Published: 2015-03-07
Total Pages: 0
ISBN-13: 9781632380005
DOWNLOAD EBOOK →This book describes the process of application of neutron diffraction, which involves determining the atomic/magnetic structure of a material using neutron scattering. The technique of neutron diffraction has found extensive applications in the study of crystals, magnetic composition and inner stress of crystalline materials of diverse categories, including nanocrystals. This book contains important data on the current status of neutron diffraction studies of crystals for experts keen on researching crystals and monitored control of their service traits, because their physical and mechanical properties are largely results of their crystal structure. Topics covered in this book have been dealt with meticulously and this book will be important to scientists keen on exploring the possibilities of this process. This text will further assist the studies of crystalline, magnetic & macrostructures of usual crystal materials and nanocrystals to achieve a new benchmark and propagate the creation of new resources with enhanced service traits and development of pioneering ideas.
