Material research in atomic scale by Mössbauer spectroscopy  pbk.

edited by Miroslav Mashlan, Marcel Miglierini and Peter Schaaf

Mossbauer spectroscopy is uniquely able to probe hyperfine interactions by looking at the short-range order of resonant atoms. Materials containing an appropriate isotope as one of their constituent atoms, such as iron or tin, are readily investigated. But even materials that do not contain Mossbauer-active atoms can be investigated if the probe atoms are incorporated in minor quantities (ca. 0.1 at.-%) to act as molecular-level indicators. These 35 papers collected here represent a state-of-the-art description of Mossbauer spectroscopy techniques applied to advanced materials. The topics covered comprise investigations of nanomaterials, nanoparticles, and quasicrystals, artificially structured materials as well as applications of Mossbauer spectroscopy in chemistry, mineralogy and metallurgy. The main aim of is the dissemination of information on research and recent developments of the method in materials science as obtained in leading Mossbauer laboratories.

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Mossbauer spectroscopy is uniquely able to probe hyperfine interactions by looking at the short-range order of resonant atoms. Materials containing an appropriate isotope as one of their constituent atoms, such as iron or tin, are readily investigated. But even materials that do not contain Mossbauer-active atoms can be investigated if the probe atoms are incorporated in minor quantities (ca. 0.1 at.-%) to act as molecular-level indicators. These 35 papers collected here represent a state-of-the-art description of Mossbauer spectroscopy techniques applied to advanced materials. The topics covered comprise investigations of nanomaterials, nanoparticles, and quasicrystals, artificially structured materials as well as applications of Mossbauer spectroscopy in chemistry, mineralogy and metallurgy. The main aim of is the dissemination of information on research and recent developments of the method in materials science as obtained in leading Mossbauer laboratories.

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[目次]

  • Preface. I: Nanoscale Systems. Nanocrystalline Oxides and Sulphides Prepared by Hydrothermal Processing and Mechanical Milling
  • F.J. Berry, et al. Mechanosynthesis of Nanostructured Materials
  • G. Le Caer, et al. Iron(III) Oxides Formed during Thermal Conversion of Rhombohedral Iron(III) Sulfate
  • R. Zboril, et al. Phase Analysis of the Fe-C Nanopowder Prepared by Laser Pyrolysis
  • B. David, et al. II: Conversion Electron Mossbauer Spectroscopy. On the Applications of Mossbauer Spectroscopy to the Study of Surfaces
  • R. Gancedo, et al. Conversion Electron Mossbauer Spectroscopy Study of Langmuir-Blodgett Films
  • D. Hanzel, B. Stahl. Modification of Steel Surfaces Following Plasma and Ion Beam Implantation Investigated by Means of CEMS
  • A.L. Kholmetskii, et al. CEMS Studies of Laser Treated Disordered Amorphous and Nanocrystalline Alloys
  • M Miglierini, et al. CEMS Measurement of Surface Hardering of Toothed Wheels
  • M. Seberini, et al. III: Magnetism. Magnetic Iron-Based Oxides Investigated by 57Fe Mossbauer Spectrometry
  • J-M. Greneche. Mattis' Magnetics and Disordered Systems
  • E.P. Yelsukov, et al. Hyperfine Magnetic Structure and Magnetic Properties of Invar Fe-Ni-C Alloys
  • V.M. Nadutov, et al. Investigation of Magnetic Properties in Iron-Based Nanocrystalline Alloys by Mossbauer Effect and Magnetization Measurements
  • J. Hesse, et al. MOMS - Magnetic Orientation Mossbauer Spectroscopy: Determination of Spin Orientations in Ion Irradiated Iron Films
  • P. Schaaf, et al. IV: Nanocrystalline Alloys and Metals. Mossbauer Effect in Iron-Based Nanocrystalline Alloys
  • O. Hupe, et al. NanocrystallineFe81-xNixZr7GBP/YYGBP12 (x=10-40) Alloys Investigated by Mossbauer Spectroscopy
  • M. Kopcewicz, B. Idzikowski. Corrosion of Fe-Based Nanocrystalline Alloys
  • J. Sitek, et al. Mossbauer and Atomic Force Microscopy Observations of Modified Surfaces of Fe-Si Steel
  • Y. Jiraskova, et al. Mossbauer Investigation of Surface Processing by Pulsed Laser Irradiation in Reactive Atmospheres
  • E. Carpene, et al. Application of Mossbauer Spectroscopy and Positron Annihilation Spectroscopy for Testing of Neutron-Irradiated Reactor Steels
  • V. Slugen, et al. Mossbauer Spectroscopy of Commercial Galvannealed Zinc Coatings
  • M. Zmrzly, et al. V: Synchrotron Radiation. Nuclear Resonant Scattering of Synchrotron Radiation
  • O. Leupold, et al. Synchrotron Mossbauer Reflectometry for Investigation of Hyperfine Interactions in Periodical Multilayers with Nanometer Resolution
  • M.A. Andreeva, B. Lindgren. Diffusion Studies in Ordered Alloys
  • M. Sladecek, et al. Nuclear Resonance Inelastic Scattering of Synchrotron Radiation in Oxides with Colossal Magnetoresistance
  • A.I. Rykov, et al. VI: Minerals. Pyrite: Linking Mossbauer Spectroscopy to Mineral Magnetism
  • E.A. Ferrow, et al. Synthesis of Iron Sulfides: A Mossbauer Study
  • N.I. Chistyakova, et al. Mossbauer Spectroscopy in Studying the Thermally Induced Oxidation of Fe2+ Cations in Iron-bearing Minerals
  • M. Mashlan, et al. VII: New Developments. Mossbauer Diffractometry
  • B. Fultz, J.Y.Y. Lin. Emission Mossbauer Spectroscopy in CoO
  • U.D. Wdowik, K. Ruebenbauer. Comparative Transmission and Emission Mossbauer Studies on Various Perovskite-Related

「Nielsen BookData」より

[目次]

  • Preface. I: Nanoscale Systems. Nanocrystalline Oxides and Sulphides Prepared by Hydrothermal Processing and Mechanical Milling
  • F.J. Berry, et al. Mechanosynthesis of Nanostructured Materials
  • G. Le Caer, et al. Iron(III) Oxides Formed during Thermal Conversion of Rhombohedral Iron(III) Sulfate
  • R. Zboril, et al. Phase Analysis of the Fe-C Nanopowder Prepared by Laser Pyrolysis
  • B. David, et al. II: Conversion Electron Mossbauer Spectroscopy. On the Applications of Mossbauer Spectroscopy to the Study of Surfaces
  • R. Gancedo, et al. Conversion Electron Mossbauer Spectroscopy Study of Langmuir-Blodgett Films
  • D. Hanzel, B. Stahl. Modification of Steel Surfaces Following Plasma and Ion Beam Implantation Investigated by Means of CEMS
  • A.L. Kholmetskii, et al. CEMS Studies of Laser Treated Disordered Amorphous and Nanocrystalline Alloys
  • M Miglierini, et al. CEMS Measurement of Surface Hardering of Toothed Wheels
  • M. Seberini, et al. III: Magnetism. Magnetic Iron-Based Oxides Investigated by 57Fe Mossbauer Spectrometry
  • J-M. Greneche. Mattis' Magnetics and Disordered Systems
  • E.P. Yelsukov, et al. Hyperfine Magnetic Structure and Magnetic Properties of Invar Fe-Ni-C Alloys
  • V.M. Nadutov, et al. Investigation of Magnetic Properties in Iron-Based Nanocrystalline Alloys by Mossbauer Effect and Magnetization Measurements
  • J. Hesse, et al. MOMS - Magnetic Orientation Mossbauer Spectroscopy: Determination of Spin Orientations in Ion Irradiated Iron Films
  • P. Schaaf, et al. IV: Nanocrystalline Alloys and Metals. Mossbauer Effect in Iron-Based Nanocrystalline Alloys
  • O. Hupe, et al. NanocrystallineFe81-xNixZr7GBP/YYGBP12 (x=10-40) Alloys Investigated by Mossbauer Spectroscopy
  • M. Kopcewicz, B. Idzikowski. Corrosion of Fe-Based Nanocrystalline Alloys
  • J. Sitek, et al. Mossbauer and Atomic Force Microscopy Observations of Modified Surfaces of Fe-Si Steel
  • Y. Jiraskova, et al. Mossbauer Investigation of Surface Processing by Pulsed Laser Irradiation in Reactive Atmospheres
  • E. Carpene, et al. Application of Mossbauer Spectroscopy and Positron Annihilation Spectroscopy for Testing of Neutron-Irradiated Reactor Steels
  • V. Slugen, et al. Mossbauer Spectroscopy of Commercial Galvannealed Zinc Coatings
  • M. Zmrzly, et al. V: Synchrotron Radiation. Nuclear Resonant Scattering of Synchrotron Radiation
  • O. Leupold, et al. Synchrotron Mossbauer Reflectometry for Investigation of Hyperfine Interactions in Periodical Multilayers with Nanometer Resolution
  • M.A. Andreeva, B. Lindgren. Diffusion Studies in Ordered Alloys
  • M. Sladecek, et al. Nuclear Resonance Inelastic Scattering of Synchrotron Radiation in Oxides with Colossal Magnetoresistance
  • A.I. Rykov, et al. VI: Minerals. Pyrite: Linking Mossbauer Spectroscopy to Mineral Magnetism
  • E.A. Ferrow, et al. Synthesis of Iron Sulfides: A Mossbauer Study
  • N.I. Chistyakova, et al. Mossbauer Spectroscopy in Studying the Thermally Induced Oxidation of Fe2+ Cations in Iron-bearing Minerals
  • M. Mashlan, et al. VII: New Developments. Mossbauer Diffractometry
  • B. Fultz, J.Y.Y. Lin. Emission Mossbauer Spectroscopy in CoO
  • U.D. Wdowik, K. Ruebenbauer. Comparative Transmission and Emission Mossbauer Studies on Various Perovskite-Related

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この本の情報

書名 Material research in atomic scale by Mössbauer spectroscopy
著作者等 Mashlan Miroslav
Miglierini Marcel
North Atlantic Treaty Organization. Scientific Affairs Division
Schaaf Peter
NATO Advanced Research Workshop on Material Research in Atomic Scale by Mössbauer Spectroscopy (2002 : Smolenice Slovakia)
書名別名 Proceedings of the NATO Advanced Research Workshop on Material Research in Atomic Scale by Mössbauer Spectroscopy, Smolenice, Slovak Republic, 1-6 June 2002
シリーズ名 NATO science series
巻冊次 pbk.
出版元 Kluwer Academic
刊行年月 c2003
版表示 Softcover reprint of the original 1st ed. 2003
ページ数 x, 361 p
大きさ 25 cm
ISBN 1402011970
1402011962
NCID BA62380618
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言語 英語
出版国 オランダ
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