Electron paramagnetic resonance from actinide elements
Identifieur interne : 001A36 ( Istex/Corpus ); précédent : 001A35; suivant : 001A37Electron paramagnetic resonance from actinide elements
Auteurs :Source :
- Reports on Progress in Physics [ 0034-4885 ] ; 1978-01-01.
English descriptors
- KwdEn :
- Abragam, Abraham, Actinide, Actinide elements, Actinide ions, Actinide nuclides, Actinide series, Admixture, Analogue, Angular variation, Anisotropic, Anomaly, Atomic number, Baf2, Bafz, Bigelow, Bleaney, Boatner, Caf2, Cafz, Chan, Characterised, Chem, Configuration, Configuration ions, Conway, Core polarisation, Covalency, Covalent, Crystal field, Crystal fields, Crystalline field, Crystallographic axis, Cubic crystal field, Data table, Divalent, Doublet, Edelstein, Electric field, Electronic configuration, Electronic properties, Energy levels, Experimental results, Finch, Fission products, Ground doublet, Ground state, Hamiltonian, Harmonics, Health physicist, Hfir, Host crystal, Host crystals, Host lattice, Hutchison, Hyperfine, Hyperfine anomaly, Hyperfine interaction, Hyperfine lines, Hyperfine parameter, Hyperfine parameters, Hyperfine pattern, Hyperfine splitting, Hyperfine structure, Impurity, Ion, Isotope, Karraker, Kolbe, Land6, Lanthanide, Lattice, Lett, Linewidth, Lupei, Magnetic field, Magnetic moment, Magneton, Matrix, Matrix elements, Microwave, Microwave cavity, Neighbouring, Neighbouring ions, Neutron, Nuclear moments, Nuclear properties, Nuclides, Orbital, Orbital momentum, Paramagnetic resonance, Periodic table, Phys, Plutonium, Polarisation, Present review, Proc, Proportionality, Proportionality factor, Pseudonuclear, Quantum number, Rare earths, Resonancefrom actinide elements, Same element, Same value, Seaborg, Single crystal, Single crystals, Spectroscopic, Spherical harmonics, Splitting, Splittings, Srclz, Srfz, Summarised, Superheavy elements, Superhyperfine, Superhyperfine structure, Target rods, Thoz, Transition series, Transuranic, Transuranic actinides, Transuranic nuclides, Transuranium, Wavefunction, Wavefunctions, Waveguide, Zeeman, Zeeman interaction.
- Teeft :
- Abragam, Abraham, Actinide, Actinide elements, Actinide ions, Actinide nuclides, Actinide series, Admixture, Analogue, Angular variation, Anisotropic, Anomaly, Atomic number, Baf2, Bafz, Bigelow, Bleaney, Boatner, Caf2, Cafz, Chan, Characterised, Chem, Configuration, Configuration ions, Conway, Core polarisation, Covalency, Covalent, Crystal field, Crystal fields, Crystalline field, Crystallographic axis, Cubic crystal field, Data table, Divalent, Doublet, Edelstein, Electric field, Electronic configuration, Electronic properties, Energy levels, Experimental results, Finch, Fission products, Ground doublet, Ground state, Hamiltonian, Harmonics, Health physicist, Hfir, Host crystal, Host crystals, Host lattice, Hutchison, Hyperfine, Hyperfine anomaly, Hyperfine interaction, Hyperfine lines, Hyperfine parameter, Hyperfine parameters, Hyperfine pattern, Hyperfine splitting, Hyperfine structure, Impurity, Ion, Isotope, Karraker, Kolbe, Land6, Lanthanide, Lattice, Lett, Linewidth, Lupei, Magnetic field, Magnetic moment, Magneton, Matrix, Matrix elements, Microwave, Microwave cavity, Neighbouring, Neighbouring ions, Neutron, Nuclear moments, Nuclear properties, Nuclides, Orbital, Orbital momentum, Paramagnetic resonance, Periodic table, Phys, Plutonium, Polarisation, Present review, Proc, Proportionality, Proportionality factor, Pseudonuclear, Quantum number, Rare earths, Resonancefrom actinide elements, Same element, Same value, Seaborg, Single crystal, Single crystals, Spectroscopic, Spherical harmonics, Splitting, Splittings, Srclz, Srfz, Summarised, Superheavy elements, Superhyperfine, Superhyperfine structure, Target rods, Thoz, Transition series, Transuranic, Transuranic actinides, Transuranic nuclides, Transuranium, Wavefunction, Wavefunctions, Waveguide, Zeeman, Zeeman interaction.
Url:
DOI: 10.1088/0034-4885/41/1/002
Links to Exploration step
ISTEX:7628196962142EE581DC9A4BEB9544758098AF26Le document en format XML
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crystals</json:string><json:string>analogue ions</json:string><json:string>largest splitting</json:string><json:string>lattice parameter</json:string><json:string>weaker crystal field</json:string><json:string>initial determination</json:string><json:string>such spectra</json:string><json:string>electronic states</json:string><json:string>centre spectrum</json:string><json:string>divalent einsteinium</json:string><json:string>research groups</json:string><json:string>nuclear stability</json:string><json:string>oxidation states</json:string><json:string>brief review</json:string><json:string>first observation</json:string><json:string>paramagnetic impurity</json:string><json:string>good quantum numbers</json:string><json:string>basis states</json:string></teeft></keywords><author><json:item><name>L A Boatner</name><affiliations><json:string>Ecole Polytech. Federale de Lausanne, Lab. de Phys. Experimentale, Lausanne, Switzerland</json:string></affiliations></json:item><json:item><name>M M Abraham</name><affiliations><json:string>Ecole Polytech. Federale de Lausanne, Lab. de Phys. 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