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Keywords for the Journal of physics and chemistry of solids
J. Pln’s. Chenr. .So~i~l~Vol. 58. No. IO. pp. l-11. 1997 Elsevier Science Ltd Printed in Great Britain
KEYWORDS
FOR THE JOURNAL
AND
CHEMISTRY
OF PHYSICS
OF SOLIDS
Authors should select a maximum of five keywords. Each keyword should be accompanied by the capital letter denoting the category from which the keyword has been selected. A. TYPES OF MATERIAL multilayers nanostructures non-crystalline materials optical materials organic compounds organometallic compounds oxides polymers quantum wells quasicrystals semiconductors surfaces superconductors thin films
alloys amorphous materials ceramics chalcogenides electronic materials elements fullerenes glasses inorganic compounds interfaces intermetallic compounds magnetic materials metals microporous materials B. PREPARATION chemical synthesis crystal growth epitaxial growth laser annealing
AND PROCESSING plasma deposition sol-gel growth vapour deposition
C. TECHNIQUES ab initio calculations differential scanning calorimetry (DSC) electron diffraction electron energy loss spectroscopy (EELS) electron microscopy high pressure infrared spectroscopy Miissbauer spectroscopy neutron scattering D. PROPERTIES acoustical properties anelasticity anharmonicity charge-density waves colour centres critical phenomena crystal fields
photoelectron spectroscopy positron annihilation spectroscopy Raman spectroscopy scanning tunnelling microscopy (STM) thermogravimetric analysis (TGA) ultrasonic measurements XAFS (EXAFS and XANES) X-ray diffraction
AND PHENOMENA crystal structure defects dielectric properties diffusion elastic properties electrical conductivity electrical properties
continued overleaf
II
Keywords for the Journal of Physics and Chemistry of Solids
D. PROPERTIES
AND PHENOMENA-continued
electrochemical properties electron paramagnetic resonance (EPR) electronic structure equations-of-state Fermi surface ferroelectricity fracture lattice dynamics luminescence magnetic properties magnetic structure mechanical properties microstructure Mossbauer effect muon spin resonance (“p” USR) nuclear magnetic resonance (NMR) nuclear quadrupole resonance (NQR)
optical properties phase equilibria phase transitions phonons piezoelectricity radiation damage semiconductivity specific heat spin-density waves superconductivity superlattices surface properties thermal conductivity thermal expansion thermodynamic properties transport properties
KEYWORDS
FOR THE JOURNAL
AND
CHEMISTRY
OF PHYSICS
OF SOLIDS
Authors should select a maximum of five keywords. Each keyword should be accompanied by the capital letter denoting the category from which the keyword has been selected. A. TYPES OF MATERIAL multilayers nanostructures non-crystalline materials optical materials organic compounds organometallic compounds oxides polymers quantum wells quasicrystals semiconductors surfaces superconductors thin films
alloys amorphous materials ceramics chalcogenides electronic materials elements fullerenes glasses inorganic compounds interfaces intermetallic compounds magnetic materials metals microporous materials B. PREPARATION chemical synthesis crystal growth epitaxial growth laser annealing
AND PROCESSING plasma deposition sol-gel growth vapour deposition
C. TECHNIQUES ab initio calculations differential scanning calorimetry (DSC) electron diffraction electron energy loss spectroscopy (EELS) electron microscopy high pressure infrared spectroscopy Miissbauer spectroscopy neutron scattering D. PROPERTIES acoustical properties anelasticity anharmonicity charge-density waves colour centres critical phenomena crystal fields
photoelectron spectroscopy positron annihilation spectroscopy Raman spectroscopy scanning tunnelling microscopy (STM) thermogravimetric analysis (TGA) ultrasonic measurements XAFS (EXAFS and XANES) X-ray diffraction
AND PHENOMENA crystal structure defects dielectric properties diffusion elastic properties electrical conductivity electrical properties
continued overleaf
II
Keywords for the Journal of Physics and Chemistry of Solids
D. PROPERTIES
AND PHENOMENA-continued
electrochemical properties electron paramagnetic resonance (EPR) electronic structure equations-of-state Fermi surface ferroelectricity fracture lattice dynamics luminescence magnetic properties magnetic structure mechanical properties microstructure Mossbauer effect muon spin resonance (“p” USR) nuclear magnetic resonance (NMR) nuclear quadrupole resonance (NQR)
optical properties phase equilibria phase transitions phonons piezoelectricity radiation damage semiconductivity specific heat spin-density waves superconductivity superlattices surface properties thermal conductivity thermal expansion thermodynamic properties transport properties