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| Preface | p. v |
| Excitation of the Nuclear Resonance in [superscript 61]Ni at 67.4 keV by Synchrotron Radiation | p. 1 |
| Multibeam Laser Selection of Nuclides for Gamma-Laser, Mossbauer Spectroscopy and Other Practice | p. 5 |
| Baseline Investigation in Transmission Mossbauer Spectroscopy Using Resonance Detectors | p. 9 |
| Perforated Diamond Anvils for Research at Very High Pressures | p. 13 |
| Nuclear Excitation of [superscript 127]Iodine Using Synchrotron Radiation | p. 17 |
| Multiple Mossbauer Spectra Data Acquisition with an Insitu Cyclic Voltammetry System | p. 21 |
| Sapphire X-Ray Resonator | p. 25 |
| Glass Dynamics and Scaling Behaviour Under Pressure Using Quasielastic Nuclear Forward Scattering | p. 29 |
| Mechanically Assisted Nitridation in the Zr-Fe System | p. 33 |
| Structural Study of Fe-Cr-Co Alloys Obtained by Mechanical Alloying | p. 37 |
| A Mossbauer Study of Nanocrystallisation Under Continuous Heating Conditions | p. 41 |
| Investigation of Eu[superscript 3+] Site Occupancy and Eu-O Covalency in Nanocrystalline Y[subscript 2]O[subscript 3] by Mossbauer Spectroscopy | p. 45 |
| Mossbauer Studies of the Tetravalent Doped Magnetite | p. 49 |
| Mossbauer Spectra of Iron Fine Particles by Computer Simulation | p. 53 |
| Structure and Magnetic Properties of the Fe(Co,Ni)ZrB Systems Prepared by The Rapid Quenching and Mechanical Alloying Methods | p. 57 |
| Mossbauer and Electrical Properties of Sulfur Doped Basalt Glass | p. 61 |
| [superscript 129]I-Mossbauer Study of Iodine-Doped Single-Walled Carbon Nanotubes | p. 67 |
| [superscript 197]Au Mossbauer Study of Au Nano-Particles | p. 71 |
| Mossbauer Study of Sm[subscript 2]Fe[subscript 17-x]Si[subscript x] | p. 75 |
| Charge State of Rare Earth Ions and Glass Transition in the Glassy Al[subscript 85]Ni[subscript 10]R[subscript 5] Alloys | p. 79 |
| Magnetic Interactions Between Nanoparticles of Different Materials | p. 83 |
| Synthesis and Magnetic Properties of Magnesium-Doped Li[subscript 0.5]Fe[subscript 2.5]O[subscript 4] Nanocrystalline Particles | p. 87 |
| Crystallization Process of [alpha]-Fe/Nd[subscript 2]Fe[subscript 14]B Type Nanocomposite Magnet Alloys | p. 91 |
| Mossbauer and Small Polaron Hopping Conduction Studies of Alkali Borogermanate Glasses Containing Iron | p. 95 |
| Mossbauer Studies of Nanosize MnFe[subscript 2]O[subscript 4] Particles | p. 99 |
| Advanced Double Coated Metal Particle Tapes Studied by Mossbauer Spectroscopy and Magnetic Measurements | p. 103 |
| Mossbauer Spectroscopy on Ferromagnetic Fe[subscript 2]VAl | p. 107 |
| Cems Study of [superscript 57]Fe Implanted in Diamond | p. 111 |
| Phonon Density of States of FeNi-Invar Determined by Nuclear Inelastic Scattering | p. 115 |
| Spin Reorientation in HoCo[subscript 12]B[subscript 6] | p. 119 |
| On the Magnetic Reordering of R[subscript 6]Fe[subscript 13]X Intermetallic Compounds: (R = Pr and Nd; X = Si, Ge and Sn) | p. 123 |
| Mossbauer Hyperfine Parameters of Fe-Al Alloys | p. 127 |
| Iron Valence in Double Perovskites | p. 131 |
| A Study of the Spin Dynamics and Mossbauer Relaxation in Sr[subscript 2]FeRuO[subscript 6] by Monte Carlo Analysis | p. 135 |
| Dynamics of Fe Cations in an H[subscript 2]SO[subscript 4] Solution by Nuclear Resonant Quasielastic Scattering | p. 139 |
| [superscript 151]Eu Mossbauer Spectroscopy of the Filled Skutterdite-Type Compound EuRu[subscript 4]P[subscript 12] | p. 143 |
| Mossbauer Study of Ni-Zn Ferrites Obtained by the Self-Propagated Method | p. 147 |
| [superscript 57]Fe Mossbauer Study of Novel Series of Intermetallic Compounds R[subscript 3](Fe[subscript 1-x]Co[subscript x])[subscript 29-y]T[subscript y] (R = Nd, Tb, Dy; T = Ti, V) | p. 153 |
| Crystallization and Anisotropic Hyperfine Field Fluctuation in Double Perovskite A[subscript 2]FeMoO[subscript 6] (A = Ba, Sr, Ca) | p. 157 |
| Mossbauer Study and Electron Transport Properties in Co[subscript 0.1]Fe[subscript 0.9]Cr[subscript 2]S[subscript 4] | p. 161 |
| Electronic Properties of CuFeS[subscript 2] Under Pressure Studied by Mossbauer Spectroscopy | p. 165 |
| Defects and Disorder in Magnetosensitive Double Perovskite A[subscript 2]FeMoO[subscript 6] (A = Sr, Ba) | p. 169 |
| [superscript 170]Yb Mossbauer Study of Magnetic Ordering INYb[subscript 2]Cu[subscript 2]O[subscript 5] | p. 173 |
| Mossbauer Study of Ba Doped Cubic Perovskite SrFeO[subscript 3] | p. 177 |
| Mossbauer and Xrd Study of (Zn, Cd)[subscript x]Co[subscript 1-x]Fe[subscript 2-x]Al[subscript x]O[subscript 4] Spinel Ferrites | p. 181 |
| Change of the Nuclear Charge Radius for the [superscript 197]Au Mossbauer Resonance | p. 185 |
| The Magnetism of FeOCl Revisited: Observation of low Field Spin-Flop Behavior for the Polycrystalline from | p. 189 |
| High Field Mossbauer Investigations of CoGa[subscript 2-x]Fe[subscript x]O[subscript 4] Spinels | p. 193 |
| [superscript 57]Fe Mossbauer Studies on BaFe[subscript 2]X[subscript 3] Compounds with X = S, Se | p. 197 |
| Mossbauer Analysis of [superscript 57]Fe Substituted for Cu in 1212-Phase (Pb,Cu)Sr[subscript 2](Y,Ca)Cu[subscript 2]O[subscript z] Superconductor | p. 201 |
| Influence of the Statistical Fluctuation of Fe[superscript 2+] Localization upon the Tilt of Fe[subscript 2+] Spin in Fe[subscript x]Nl[subscript 1-x]Cl[subscript 2] | p. 205 |
| Evidence of Intermediate Magnetic States in Non-Stochiometric Hematite | p. 209 |
| Mossbauer and Magnetic Evidence for Spin Frustration in Hetero-Trinuclear Clusters | p. 213 |
| [superscript 119]Sn Mossbauer Study of the Giant Magnetocaloric Compound: Gd[subscript 5]Sn[subscript 4] | p. 217 |
| The Magnetic Structure of Doped Gamma Iron Oxide | p. 221 |
| Mossbauer and Neutron Diffraction Studies on the Magnetic Phase Transition in Antiferromagnetic FePt[subscript 0.5]Ir[subscript 0.5] Alloy | p. 225 |
| High-Pressure Mossbauer Study of Perovskite Iron Oxides | p. 229 |
| Aph Induced Red Cell Oxidation in Healthy Persons | p. 233 |
| Structural Relaxation from X-Ray Irradiated Metastable HbMET Investigated by Mossbauer Spectroscopy | p. 237 |
| Potassium Ascorbate As Protective Agent in the Oxidation of the Red Blood Cells | p. 241 |
| Dynamic Phenomena in Deoxy- and Oxymyoglobin Investigated by Nuclear Resonant Forward Scattering of Synchrotron Radiation | p. 245 |
| Characterization of Cytochrome c-552 from Nitrosomonas Europaea with Epr and Mossbauer Spectroscopy | p. 249 |
| How a Blood Sucking Insect Gets its Meal: The Ferriheme Proteins Nitrophorin 2 and 4 Studied by Mossbauer Spectroscopy | p. 253 |
| A Study on Red Blood Cells of the Patients with Cyanotic Congenital Heart Disease | p. 257 |
| A High Pressure Mossbauer Spectroscopy Study of[superscript 57]FeOEPCl] | p. 261 |
| In-Situ [superscript 57]Fe Mossbauer Spectroscopy Investigation of the Thermal Treatment of Metal-Doped Fe[subscript 3]O[subscript 4] | p. 265 |
| Nuclear Resonant Forward Scattering Using Synchrotron Radiation Applied to the Low-Spin Ferriheme Complex [TPPFe(NH[subscript 2]PzH)[subscript 2]Cl | p. 269 |
| [superscript 57]Fe Mossbauer Spectroscopy Investigation of Cobalt-Substituted Lanthanum Orthoferrites | p. 273 |
| X-Ray and Mossbauer Study of Mixed Potassium-Sodium Ferrate (VI) | p. 277 |
| Mossbauer Studies of Bonding and Tin(II) Sublattice Softening in the Highly Unusual Doubly Disordered Ba[subscript 1-x]Sn[subscript x]Cl[subscript 1+y]F[subscript 1-y] Solid Solution | p. 281 |
| A Mossbauer Spectroscopic Study of Self-Passivation in Tin(II) Chloride Fluorides: The Special Case of the Ba[subscript 1-x]Sn[subscript x]Cl[subscript 1+x]F[subscript 1-y] Solid Solution | p. 285 |
| Variation in Spin Direction Observed for Oxalate-Bridged Mn(II)-Fe(III) Systems | p. 289 |
| Mossbauer Spectroscopic Study on xFe[subscript 2]O[subscript 3] [middle dot] (40-x)Na[subscript 2]O [middle dot] 60P[subscript 2]O[subscript 5] (x = 5, 20, 30) Glasses at Low Temperature | p. 293 |
| Synthesis and [superscript 57]Fe and [superscript 151]Eu Mossbauer Spectroscopic Studies of New Lanthanoid-Iron Complexes | p. 297 |
| In-Beam Mossbauer Study of [superscript 57]Fe Species Arising From [superscript 57]Mn Implanted Into KMnO[subscript 4] | p. 301 |
| [superscript 151]Eu Mossbauer Spectroscopic and Xrd Study on Some Fluorite-Type Solid Solution Systems, Eu[subscript y]M[subscript 1-y]O[subscript 2-y/2] (M = Zr, Hf, Ce) | p. 305 |
| Study on Porphyrin Complex Ligated with Azaferrocene Derivatives | p. 309 |
| Characterization of Heavy Metal Waste Glass by Mossbauer Spectroscopy | p. 313 |
| Heterobimetallic [2-(Dimethylaminomethyl)-Ferrocenyl] Derivatives Investigated with Elements of the Fourth Maingroup | p. 317 |
| Mossbauer Studies of Fe(II)-Nitrosyl Porphyrin Model Compounds | p. 321 |
| Antimony-121 Mossbauer Spectra for Crown Ether Complexes of Antimony (III) Trihalides, SbX[subscript 3] (crown) | p. 325 |
| Variable Temperature [superscript 57]Fe Mossbauer Spectroscopic Studies on Ferrocenyl "Push-Pull" Molecules | p. 329 |
| The Ca Binding to the Hull of Nixtamalized Corn Grains as Detected by [superscript 57]Fe Mossbauer Spectroscopy and Related Techniques | p. 333 |
| Mossbauer Spectroscopic Study of Iron-Containing Sodium Borosilicate Glasses | p. 337 |
| Investigation of the Fe[superscript 3+] Luminescence in LiAlO[subscript 2] Phosphors Activated with Iron | p. 341 |
| Nickel- and Cobalt-Doped Magnetite as Catalysts on the Oxidation of Co | p. 345 |
| Hydrogenation of HoFe2 | p. 351 |
| Metal-Tellurium Bonds in 3D-Transition Metal Ditellurides | p. 355 |
| Preparation and Europium-151 Mossbauer Spectroscopy of Ca[subscript 1-x]Eu[subscript x]Al[subscript 12]O[subscript 19] | p. 359 |
| Spin Crossover in Fe(II) Molecular Compounds--Mossbauer and [mu]Sr Investigations | p. 363 |
| Investigation into the Microstructure of Iron-Chromium Oxyhydroxide Fine Particles | p. 367 |
| Mossbauer Spectral Study of Two Layered Honeycomb Molecular Magnets: PPh[subscript 4]Fe[superscript II]Fe[superscript III](ox)[subscript 3] and NBu[subscript 4]Fe[superscript II]Fe[superscript III](ox)[subscript 3] | p. 371 |
| Mossbauer Studies on the Metallic Phases of A1 Kidirate and New Halfa Meteorites | p. 375 |
| [superscript 57]Fe Mossbauer Spectroscopic Investigation of Some Coals of Geographically Different Provenance and Their Fly Ashes | p. 379 |
| The Aging Process in Ceramics | p. 383 |
| Chemical Dynamics of Fe Compounds in Brazilian Mangrove Sediments Studied by Mossbauer Spectroscopy | p. 387 |
| Mossbauer Spectrmetry to Study Diagenetical Processes of Red Beds and Sand Dikes in the Valles-Penedes Half Graben | p. 393 |
| Mossbauer Investigation of Biologically-Induced Mineralization Processes | p. 397 |
| Two Magnetic Transitions at Lower Temperature in (Fe[subscript 1-x]Me[subscript x])[subscript 2]SiS[subscript 4]-Thioolivines, Me = Mg or Mn | p. 401 |
| A Mossbauer Study of Meteorites--A Possible Criterion to Identify Meteorites from the Same Parent Body? | p. 405 |
| Mossbauer Study of Brazilian Emeralds | p. 409 |
| KKey Role of the Kinetics of [gamma]-Feooh Bioreduction on the Formation of Fe(II-III) Minerals | p. 415 |
| Mossbauer Spectra of Circumstellar Silicate Dust Analogs Used as a Fischer-Tropsch Catalyst | p. 419 |
| Rock Paintings Fron Minas Gerais, Brazil Investigated by In-Situ Mossbauer Spectroscopy | p. 423 |
| Trends in Atmospheric Iron Measured by Mossbauer Spectroscopy | p. 427 |
| Energetic Heavy Iron Radiation Effect in Brazilian Emeralds | p. 431 |
| Mossbauer Spectroscopic Study on Characterization of Iron in the Permian to Triassic Deep Sea Chert from Japan | p. 435 |
| Iron Mineral Modifications in the Sand Fraction of a Subtropical Soil from Argentina | p. 439 |
| Mossbauer and X-Ray Diffraction Study of Mackinawite FeS[subscript 1-x] Air Oxidation | p. 443 |
| Characterization of Iron Sulphides from Ore Mining Projects | p. 447 |
| Magnetic Characterization of Sediments of Urban Supply Lakes in Sao Paulo, Brazil | p. 453 |
| Mossbauer Investigation on Ti-Garnets from Different Geological Environments | p. 457 |
| Mossbauer Study of Iron Sulfide Crystallization Processes | p. 461 |
| Fe-Ni Metal Structures of Mesosiderites Studied by Mossbauer Spectroscopy | p. 465 |
| Weathering of Volcanic Material from Perhumid Costa Rica Studied by Mossbauer Spectroscopy, Inaa and Xrd | p. 469 |
| The Leaching of a Sulphide Ore--A Mossbauer and Sem Perspective | p. 471 |
| Sican Kilns and Furnaces: Field Firings and Archaeometric Studies | p. 475 |
| [superscript 57] Fe Mossbauer Spectroscopy in Coal with Different Caloric Values | p. 479 |
| Study of Oxide-Support Interactions in Silica-Supported Iron Oxide Precursors | p. 483 |
| On-Line and In-Situ Identification of Air Pollution | p. 487 |
| Cems Study of Corrosion Product: [gamma]-FeOOH | p. 491 |
| Mossbauer Spectroscopic Study of Iron Oxyhydroxides and Rust Formed on the Steel Surfaces | p. 495 |
| Iron Phases in FeO-Fe[subscript 2]O[subscript 3]-CaO-SiO[subscript 2] Metallurgical Slags | p. 499 |
| The Role of Silicon Atoms Inside the Brownmillerite Phase of Cement Clinker | p. 503 |
| On Magnetite Formation as a Corrosion Product of Steel | p. 507 |
| A Mossbauer Study of Steel and Its Ore Originating from Northern Iran | p. 511 |
| Mossbauer and Structural Studies of GdFe[subscript 2-x]Ti[subscript x] Alloys | p. 515 |
| The Effects of Short Oxidation Time on Zr (Fe,Cr)[subscript 2] Laves Phases | p. 519 |
| Rare Earth Additions in a Ferritic Steel: A Mossbauer Study | p. 523 |
| Mossbauer Study of the Effect of Milling Periodic on the Dynamic Behavior of Fe[subscript 30]Ti[subscript 70] Alloy | p. 529 |
| Magnetic Properties of Iron-Copper Alloys | p. 535 |
| Austemtering Transformation in 0.11 wt% Mn Vermicular Cast Iron | p. 539 |
| Ball Milling of Fe[subscript 3]Al-Si Powder Mixtures | p. 543 |
| Mossbauer Spectroscopy Study of Iron Removal Process During Zinc Extraction | p. 547 |
| Effect of Heat Treatment on the Mechanical Alloyed Fe[subscript 2]B | p. 551 |
| Mossbauer Effect Studies of Dy(Fe[subscript 0.7-x]Al[subscript x]C[subscript 0.3])[subscript 2] and Dy(Fe[subscript 0.7]Co[subscript 0.3-x]Al[subscript x])[subscript 2] Compounds | p. 555 |
| Structural and Magnetic Characteristics of Fe[subscript 1-x]Co[subscript x] Alloys Containing 12.5 at % Nb | p. 559 |
| Mossbauer Study of the [alpha]' Phase Formation in Fe-Cr-Based Duplex Stainless Steel | p. 563 |
| Mossbauer Spectral Study of PrTiFe[subscript 11-x]Co[subscript x] (x [less than or equal] 2) | p. 567 |
| Atomic Ordering at Grain Boundaries in Fe-Si and Fe-Al Alloys | p. 571 |
| Effects of Cold Rolling and Heat Treatments on Fe Precipitation in High Purity Aluminum Studied by Mossbauer Spectroscopy | p. 575 |
| A Mossbauer Study of the RENiSn (RE = La, Nd, Tb and Ho) Intermetallic Compounds and Their Deuterides | p. 579 |
| Monte Carlo Simulation of the Mossbauer Spectra in Ternary FeCoMo Alloys | p. 583 |
| Structural Changes of an Austenitic Stainless Steel Induced by Rf Plasma Nitriding | p. 587 |
| Mossbauer Study of Radiation Effects on Swift Heavy Iron Irradiated Fe-Ni-Cr Mul Tilayers and Electrodeposited Alloys | p. 591 |
| Ultra-Thin Fe[subscript x]Mn[subscript 1-x] Alloy Films on Ag(100) | p. 595 |
| Interface Structure and Magnetism of Fe/Cr Multilayers | p. 599 |
| Spin Structures in Exchange-Biased Thin Films Studied by Mossbauer Spectroscopy | p. 603 |
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