Introduction to the Physics of the Earth's InteriorCambridge University Press, 2 mars 2000 - 312 pages Introduction to the Physics of the Earth's Interior describes the structure, composition and temperature of the deep Earth in one comprehensive volume. This new edition of a successful textbook has been enlarged and fully updated, taking into account the considerable experimental and theoretical progress recently made in understanding the inner structure of the Earth. Like the first edition, this will be a useful textbook for graduate and advanced undergraduate students in geophysics and mineralogy. It will also be of great value to researchers in earth sciences, physics and materials sciences. |
Table des matières
III | 1 |
IV | 4 |
V | 6 |
VI | 8 |
VII | 11 |
VIII | 13 |
IX | 20 |
XI | 25 |
XXXIX | 110 |
XL | 115 |
XLII | 118 |
XLIII | 120 |
XLIV | 121 |
XLV | 123 |
XLVI | 125 |
XLVII | 132 |
XII | 27 |
XIII | 33 |
XIV | 36 |
XV | 38 |
XVI | 39 |
XVII | 41 |
XVIII | 44 |
XIX | 46 |
XX | 57 |
XXI | 58 |
XXII | 63 |
XXIII | 64 |
XXIV | 66 |
XXV | 70 |
XXVI | 72 |
XXVII | 74 |
XXVIII | 76 |
XXIX | 77 |
XXX | 78 |
XXXI | 79 |
XXXII | 82 |
XXXIII | 90 |
XXXIV | 94 |
XXXV | 96 |
XXXVI | 100 |
XXXVII | 102 |
XXXVIII | 107 |
XLVIII | 139 |
XLIX | 143 |
L | 144 |
LI | 145 |
LIII | 146 |
LIV | 156 |
LV | 162 |
LVI | 174 |
LVII | 184 |
LVIII | 189 |
LX | 194 |
LXI | 203 |
LXII | 212 |
LXIII | 213 |
LXIV | 221 |
LXVI | 223 |
LXVII | 227 |
LXVIII | 230 |
LXIX | 231 |
LXX | 236 |
LXXI | 241 |
LXXII | 244 |
LXXIII | 259 |
LXXIV | 272 |
LXXV | 275 |
309 | |
Expressions et termes fréquents
activation energy activation enthalpy adiabatic Birch-Murnaghan Boehler Brillouin zone bulk modulus Bullen parameter calculated composition compression convection corresponding creep crystal Debye's density derived diamond-anvil cell dislocation Earth models Earth Planet elastic moduli electrical conductivity electrons entropy equation experimental expression extensive quantities extrapolated Figure finite strain fluid forsterite free energy frequency function gamma Geophys geophysics Gilvarry given Grüneisen parameter heat hence high pressures high temperatures Hugoniot inner core interatomic iron isothermal Jeanloz lattice Lindemann linear liquid lower mantle magnesiowüstite melting curve melting point melting temperature metals MgSiO minerals O. L. Anderson obtain olivine oxides periclase perovskite phase diagram phase transitions phonon Phys physical plane Poirier Poisson's ratio potential Qmax relation seismic seismological shear shock-wave silicates slope solid Stacey stishovite structure thermal conductivity thermal expansion thermodynamic tion vacancies values velocity vibrational viscosity wave ΔΗ ат
Fréquemment cités
Page 276 - CJ (1997) Limitation on the mass exchange between the upper and lower mantle: the evolving convection regime of the Earth. Earth Planet.
Page 284 - Akimoto, S., 1968. Thermal diffusivity of Mg2SiO4. Fe2SiO4, and NaCl at high pressures and temperatures. J. Geophys. Res. 73, 4727— 4733.