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Actinide monochalcogenides

(Autor)

Buch | Hardcover
X, 574 Seiten
2009 | 2009
Springer Berlin (Verlag)
978-3-540-29177-0 (ISBN)

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Actinide monochalcogenides - Robert Troc
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The Landolt-Börnstein Volume 27 deals with the magnetic properties of non-metallic inorganic compounds based on transition elements, such as there are pnictides, chalcogenides, oxides, halides, borates, silicates and phosphates. A survey of the contents of all subvolumes that have already appeared or have been planned to appear is printed on the inside of the front cover. In order to cover the large amount of magnetic and magnetically related properties of the lanthanide and actinide pnictides and chalcogenides that appeared in literature in recent years, the subvolume 27B had to be split into subvolumes B1...B8. Subvolumes 27B1, 27B2, 27B3, 27B4 and 27B5 (published between 1998 and 2003) deal with lanthanide pnictides and chalcogenides. Pnictides are defined as compounds containing at least one of the elements P, As, Sb or Bi (V-th group of the Periodic System), and chalcogenides are defined as compounds containing one of the elements S, Se or Te (VI-th group of the periodic system). The three subvolumes 27B6, 27B7 and 27B8 cover the properties of actinide pnictides and chalcogenides. Subvolume 27B8 (published in 2004) deals with ternary actinide pnictides and chalcogenides, while in subvolume 27B7 (published in 2005) data on binary non-equiatomic actinide pnictides and chalcogenides are given.

List of Symbols and Abbreviations.- Survey: General Properties of Actinide Monochalcogenides (AnY).- Survey: Actinide Monosulfides (AnS).- Survey: Actinide Monoselenides (AnSe).- Survey: Actinide Monotellurides (AnTe).- Actinide Monochalcogenides: Tables on General Properties.- Actinide Monochalcogenides: Enthalpy of Formation and Melting Points.- Actinide Monochalcogenides: Bonding Length and Binding Energy.- Actinide Monochalcogenides: Lattice Parameter.- Actinide Monochalcogenides: Lattice Properties.- Actinide Monochalcogenides: Electronic Band Structure and Density of States (DOS).- Actinide Monochalcogenides: X-ray Absorption Near Edge Structure (XANES).- Uranium Monochalcogenides: Photoelectron Spectroscopy (PES).- Thorium and Uranium Monochalcogenides: Lattice Parameter.- Uranium Monochalcogenides: Rhombohedral Distortion Angle.- Thorium and Uranium Monochalcogenides: Elastic Constants and Phonon Frequencies.- Thorium Monochalcogenides: Bulk Modulus and Transition Pressure.- Uranium Monochalcogenides: Lattice Properties.- Uranium Monochalcogenides: Elastic Constants.- Uranium Monochalcogenides: Force Constants and Phonon Frequencies.- Uranium Monochalcogenides: Reflectivity.- Uranium Monochalcogenides: Magnetooptical Kerr Effect and Optical Conductivity.- Actinide Monochalcogenides: Magnetization.- Uranium Monochalcogenides: Magnetic Exchange and Coupling.- Uranium Monochalcogenides: Magnetization and Pressure.- Uranium Monochalcogenides: Magnetic Hyperfine Fields.- Uranium Monochalcogenides: Magnetic Anisotropy and Density of States (DOS).- Uranium Monochalcogenides: Electron Spin Polarization (ESP).- Uranium Monochalcogenides: X-ray Magnetic Circular Dichroism (XMCD) and X-ray Absorption (XAS).- Uranium Monochalcogenides: Magnetic Susceptibility.- Uranium Monochalcogenides: Crystal Field Effect (CFE).- Uranium Monochalcogenides: Magnetic Form Factor and Magnetic Neutron Scattering.- Uranium Monochalcogenides: Heat Capacity.- Uranium Monochalcogenides: Electrical Resistivity.- Actinide Monochalcogenides: Magnetic Phase Diagram.- Neptunium Monochalcogenides: Néel Temperature.- Neptunium Monochalcogenides: Magnetic Hyperfine Fields.- Neptunium Monochalcogenides: Magnetic Susceptibility.- Neptunium Monochalcogenides: Electrical Resistivity.- Neptunium Monochalcogenides: Heat Capacity.- Neptunium Monochalcogenides: Reflectivity.- Plutonium Monochalcogenides: Electronic Band Structure and Density of States (DOS).- Plutonium Monochalcogenides: Lattice Properties and Elastic Constants.- Plutonium Monochalcogenides: Magnetic Susceptibility.- Plutonium Monochalcogenides: Electrical Resistivity.- Plutonium Monochalcogenides: Reflectivity.- Americium Monochalcogenides: Binding Energy.- Actinide Monosulfides: Lattice Parameter.- ThS: Electronic Band Structure and Density of States (DOS).- ThS: Lattice Properties.- ThS: Electrical Resistivity.- ThS: Heat Capacity.- Th(P, S): Magnetic Susceptibility.- UO: Electronic Band Structure and Density of States (DOS).- US: Electronic Band Structure and Density of States (DOS).- US: X-ray Photoelectron Spectroscopy (XPS) and Photoelectron Spectroscopy (PES).- US: Unit Cell Volume.- US: Elastic Constants and Phonon Dispersion.- US: Magnetization.- US: Magnetic Critical Point Properties.- US: Magnetic Neutron Scattering and Magnon Dispersion.- US: X-ray Magnetic Circular Dichroism (XMCD).- US: Charge and Magnetic Compton Profile.- US: Magnetic Susceptibility.- US: Magnetic Form Factor.- US: X-ray Absorption Near Edge Structure (XANES).- US: Electrical Resistivity and Hall Effect.- US: Thermoelectric Power.- US: Thermal Conductivity and Thermal Diffusivity.- US: Heat Capacity.- US: Muon Spin Resonance (?SR).- US: Optical Conductivity and Dielectric Function.- US: Reflectivity and Magnetooptical Kerr Effect.- (U, Th)S: Lattice Parameter and Vegard's Law.- (U, Th)S: Magnetization and Magnetic Hysteresis.- (U, Th)S: Magnetic Susceptibility.- (U, Th)S: Electrical Resistivity.- (U, Th)S: Heat Capacity.- (U, Th)S: Thermoelectric Power.- (U, Y)S: Magnetic Susceptibility.- (U, Y)S: Magnetization and Magnetic Hysteresis.- (U, La)S: Lattice Properties.- (U, La)S: Magnetic Susceptibility.- (U, La)S: Magnetization, Magnetic Anisotropy, and Magnetic Hysteresis.- (U, La)S: Magnetic Neutron Scattering.- (U, La)S: Magnetooptical Kerr effect.- (U, La)S: Electrical Resistivity and Hall Effect.- (U, La)S: Heat Capacity.- (U, La)S: Reflectivity, Optical Conductivity, and Dielectric Function.- (U, La)S: X-ray Magnetic Circular Dichroism (XMCD).- (U, La)S: Muon Spin Resonance (?SR).- (U, La)S: Extended X-ray Absorption Fine Structure (EXAFS).- (U, Th)S, (U, Pr)S (U, Nd)S: Lattice Parameter.- (U, Pr)S: Magnetization and Magnetic Phase Diagram.- (U, Pr)S: Magnetic Susceptibility.- (U, Nd)S: Magnetic Susceptibility and Magnetic Phase Diagram.- (U, Nd)S: Magnetization and Magnetic Hysteresis.- (U, Th)S, (U, Pr)S (U, Nd)S: Magnetic Phase Diagram.- U(P, S): Lattice Parameter and Interaxial Distortion.- U(P, S): Magnetization and Magnetic Susceptibility.- U(P, S): Magnetic Neutron Scattering.- U(P, S): Magnetic Critical Point Properties.- U(P, S): Magnetization, Magnetic Anisotropy, and Magnetic Hysteresis.- U(P, S): Magnetic Phase Diagram.- U(P, S): AC Magnetic Susceptibility.- U(P, S): Electrical Resistivity.- U(P, S): Heat Capacity.- U(P, S): Thermal Conductivity and Thermal Diffusivity.- U(P, S): Nuclear Magnetic Resonance (NMR) Spectroscopy.- U(As, S): Lattice Parameter.- U(As, S): Magnetization.- U(As, S): Magnetic Neutron Scattering.- U(As, S): Magnetic Phase Diagram.- NpS: Magnetic Neutron Scattering and Magnetization.- NpS: Resonant X-ray Magnetic Scattering (RXMS).- NpS: Mössbauer Spectroscopy.- NpS: Magnetic Susceptibility.- NpS: Electrical Resistivity.- NpS: Reflectivity.- PuS: Density of States (DOS).- PuS: Magnetic Susceptibility.- PuS: Magnetic Neutron Scattering and Magnetic Form Factor.- PuS: Electrical Resistivity.- PuS: Thermoelectric Power.- PuS: Reflectivity.- (U, Pu)S: Magnetic Susceptibility.- (U, Pu)S: Electrical Resistivity.- ThSe: Unit Cell Volume.- ThSe: Electrical Resistivity.- ThSe: Heat Capacity.- USe: Electronic Band Structure and Density of States (DOS).- USe: Unit Cell Volume.- USe: Structural and Magnetic Phase Diagram.- USe: Elastic Constants and Phonon Dispersion.- USe: Magnetization and Magnetic Hysteresis.- USe: Magnetic Compton X-ray Scattering (MCXS).- USe: Electrical Resistivity.- USe: Magnetic Critical Point Properties.- USe: Magnetic Compton Profile (MCP).- USe: Electron Spin Polarization (ESP).- USe: Magnetic Neutron Scattering.- USe: Magnetic Susceptibility.- USe: Electrical Resistivity and Hall Coefficient.- USe: Heat Capacity.- USe: Magnetooptical Kerr Effect.- USe: Reflectivity.- USe: Optical Conductivity and Dielectric Function.- (U, Th)Se: Lattice Properties.- (U, Th)Se: Magnetization and Magnetic Susceptibility.- (U, Th)Se: Electrical Resistivity.- (U, Th)Se: Heat Capacity.- (U, Th)(As, Se): Magnetization and Magnetic Susceptibility.- (U, Y)Se: Magnetization and Magnetic Susceptibility.- (U, Y)(As, Se): Magnetization and Magnetic Hysteresis.- (U, Dy)Se: Magnetization and Magnetic Susceptibility.- U(S, Se): Lattice Parameter, Effective Magnetic Moment and Curie Temperature.- U(P, Se): Lattice Parameter, Effective Magnetic Moment and Critical Temperatures.- U(P, Se): Lattice Parameter.- U(P, Se): Magnetization and Magnetic Susceptibility.- U(P, Se): Magnetic Neutron Scattering and Magnetic Phase Diagram.- U(P, Se): Magnetic Phase Diagram.- U(P, Se): Heat Capacity.- U(As, Se): Magnetostriction and Interaxial Distortion Angle.- U(As, Se): Magnetization and Magnetic Susceptibility.- U(As, Se): Magnetic Phase Diagram.- U(As, Se): Magnetic Anisotropy and Magnetic Hysteresis.- U(As, Se): Magnetic Neutron Scattering.- U(As, Se): Resonant X-ray Magnetic Scattering (RXMS).- U(As, Se): Magnetic Heat Capacity.- U(As, Se): Optical Conductivity and Magnetooptical Kerr Effect.- U(As, Se): Photoelectron Spectroscopy (PES).- U(As, Se): Electrical Resistivity.- NpSe: Lattice Properties.- NpSe: Magnetic Susceptibility.- NpSe: Electrical Resistivity.- NpSe: Reflectivity.- Np(As, Se): Mössbauer Spectroscopy.- Np(As, Se): Magnetic Neutron Scattering and Magnetization.- Np(As, Se): Magnetic Phase Diagram and Magnetic Structure.- PuSe: Electronic Band Structure and Density of States (DOS).- PuSe: Photoelectron Spectroscopy (PES).- PuSe: Lattice Properties under Pressure.- PuSe: Reflectivity.- PuSe: X-ray Absorption Near Edge Structure (XANES).- Actinide Monotellurides: X-ray Absorption Spectroscopy (XAS) and Photoelectron Spectroscopy (PES).- Actinide Monotellurides: Lattice Properties.- Actinide Monotellurides: Electrical Resistivity.- ThTe: Unit Cell Volume.- UTe: Electronic Band Structure and Density of States (DOS).- UTe: X-ray Absorption Spectroscopy (XAS) and Photoelectron Spectroscopy (PES).- UTe: Optical Conductivity.- UTe: Angle-Resolved Photoelectron Spectroscopy (ARPES).- UTe: Lattice Properties.- UTe: Elastic Constants and Phonon Dispersion.- UTe: Magnetization and Magnetic hysteresis.- UTe: Mössbauer Spectroscopy.- UTe: Magnetooptical Kerr Effect.- UTe: Electron Spin Polarization (ESP).- UTe: Magnetic Critical Point Properties.- UTe: Electrical Resistance.- UTe: AC Magnetic Susceptibility.- UTe: Structural and Magnetic Phase Diagram.- UTe: Magnetic Neutron Scattering and Magnon Dispersion.- UTe: Magnetic X-ray Scattering.- UTe: Muon Spin Resonance.- UTe: Magnetic Susceptibility.- UTe: Scattering Function of Inelastic Neutron Scattering.- UTe: Heat Capacity.- (U, Th)Te: Magnetic Susceptibility.- (U, Y)Te: Magnetization.- (U, La)Te: Magnetization and Magnetic Susceptibility.- (U, La)Te: Electrical Resistivity and Hall Coefficient.- (U, La)Te: Scattering Function of Inelastic Neutron Scattering.- U(Sb, Te): Magnetic Phase Diagram.- U(Sb, Te): Magnetization and Magnetic Hysteresis.- U(Sb, Te): Magnetic Neutron Scattering.- U(Sb, Te): Resonant X-ray Magnetic Scattering (RXMS).- U(Sb, Te): X-ray Scattering.- U(Sb, Te): Polarized Neutron Scattering.- U(Sb, Te): Thermoelectric Power.- U(Sb, Te): Photoelectron Spectroscopy (PES).- U(Sb, Te): AC Magnetic Susceptibility.- U(Sb, Te): Optical Conductivity and Magnetooptical Kerr Effect.- U(Sb, Te): Rhombohedral Distortion Angle.- U(Sb, Te): Magnon Dispersion.- U(Sb, Te): Heat Capacity.- U(Sb, Te): Density of States (DOS).- U(Sb, Te): Electrical Resistivity.- NpTe: Electronic Band Structure and Density of States (DOS).- NpTe: Lattice Properties.- NpTe: Phonon Dispersion.- NpTe: Polarized Neutron Scattering.- NpTe: Electrical Resistivity.- NpTe: Heat Capacity.- NpTe: Reflectivity.- Np(Sb, Te): Magnetization and Magnetic Susceptibility.- PuTe: Electronic Band Structure and Density of States (DOS).- PuTe: Photoelectron Spectroscopy (PES).- PuTe: Lattice Properties.- PuTe: Magnetic Susceptibility.- PuTe: Electrical Resistivity and Hall Coefficient.- PuTe: Heat Capacity.- PuTe: Optical Conductivity and Reflectivity.- Pu(Sb, Te): Magnetization and Magnetic Susceptibility.- Pu(Sb, Te): Electrical Resistivity and Hall Coefficient.- Pu(Sb, Te): Mössbauer Spectroscopy.- AmTe: Magnetization and Magnetic Susceptibility.- AmTe: Reflectivity.

Erscheint lt. Verlag 23.3.2009
Reihe/Serie Condensed Matter
Landolt-Börnstein: Numerical Data and Functional Relationships in Science and Technology - New Series
Zusatzinfo X, 574 p. 669 illus.
Verlagsort Berlin
Sprache englisch
Maße 193 x 270 mm
Themenwelt Naturwissenschaften Physik / Astronomie Allgemeines / Lexika
Naturwissenschaften Physik / Astronomie Elektrodynamik
Naturwissenschaften Physik / Astronomie Optik
Schlagworte Absorption • band structure • density of states • elastic constants • electrical conductivity • electronic absorption spectra • Electrons • heat capacity • Lattice parameters • magnetic phase diagram • magnetic structure • magnetic suscep • magnetic susceptibility • magnetization • Neutron • neutron diffraction • photon emission spectra • Refractive index • X-ray absorption spectra
ISBN-10 3-540-29177-6 / 3540291776
ISBN-13 978-3-540-29177-0 / 9783540291770
Zustand Neuware
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