Possible thermal and chemical stabilization of body-centred-cubic iron in the Earth's core
暂无分享,去创建一个
Lidunka Vočadlo | Dario Alfè | M. J. Gillan | M. Gillan | G. D. Price | D. Alfé | L. Vočadlo | I. Wood | J. Brodholt | G. David Price | I. G. Wood | J. P. Brodholt
[1] Lidunka Vočadlo,et al. Ab initio melting curve of the fcc phase of aluminum , 2002 .
[2] Wallace Broeker,et al. The Great Ocean Conveyor , 1991 .
[3] T. Stocker,et al. Rapid transitions of the ocean's deep circulation induced by changes in surface water fluxes , 1991, Nature.
[4] Gerrit Lohmann,et al. Influence of vertical mixing on the thermohaline hysteresis: Analyses of an OGCM , 2003 .
[5] Stefan Rahmstorf,et al. Rapid changes of glacial climate simulated in a coupled climate model , 2001, Nature.
[6] J. Kutzbach,et al. A Simulation of the Last Glacial Maximum climate using the NCAR-CCSM , 2003 .
[7] J. W. Shaner,et al. High-pressure science and technology--1993 , 1994 .
[8] A. Sterl,et al. Response of the Atlantic overturning circulation to South Atlantic sources of buoyancy , 2002 .
[9] Crowley,et al. Local orbital forcing of antarctic climate change during the last interglacial , 1998, Science.
[10] O. Anderson,et al. The case for a body-centered cubic phase (α′) for iron at inner core conditions , 1997 .
[11] UK,et al. Structure and dynamics of liquid iron under Earth’s core conditions , 2000 .
[12] W. Petry. Dynamical Precursors of Martensitic Transitions , 1995 .
[13] M. Gillan,et al. Phonon Density of States of Iron up to 153 Gigapascals , 2001, Science.
[14] Thermodynamics of hexagonal-close-packed iron under Earth’s core conditions , 1999, cond-mat/9908400.
[15] M. J. Gillan,et al. Iron under Earth’s core conditions: Liquid-state thermodynamics and high-pressure melting curve from ab initio calculations , 2001, cond-mat/0107307.
[16] D. Young,et al. Theory of the iron phase diagram at Earth core conditions , 1990 .
[17] Herzig,et al. Phonon dispersion of the bcc phase of group-IV metals. III. bcc hafnium. , 1991, Physical review. B, Condensed matter.
[18] Jeannot Trampert,et al. Robust Normal Mode Constraints on Inner-Core Anisotropy from Model Space Search , 2003, Science.
[19] M. Gillan,et al. Composition and temperature of the Earth's core constrained by combining ab initio calculations and seismic data , 2002 .
[20] Wang,et al. Correlation hole of the spin-polarized electron gas, with exact small-wave-vector and high-density scaling. , 1991, Physical review. B, Condensed matter.
[21] Rainer Zahn,et al. Warming of the tropical Atlantic Ocean and slowdown of thermohaline circulation during the last deglaciation , 1999, Nature.
[22] M. Schulz,et al. Reconciling Bølling Warmth with peak deglacial meltwater discharge , 2000 .
[23] M. Gillan,et al. The melting curve of iron at the pressures of the Earth's core from ab initio calculations , 1999, Nature.
[24] Athanasios Koutavas,et al. El Niño-Like Pattern in Ice Age Tropical Pacific Sea Surface Temperature , 2002, Science.
[25] M. Prange,et al. The glacial thermohaline circulation: Stable or unstable? , 2002 .
[26] J. Toggweiler. Variation of atmospheric CO2 by ventilation of the ocean's deepest water , 1999 .
[27] Ab initio chemical potentials of solid and liquid solutions and the chemistry of the Earth's core , 2001, cond-mat/0111431.
[28] M. Gillan,et al. Ab initio free energy calculations on the polymorphs of iron at core conditions , 2000 .
[29] G. Shen,et al. Iron-Silicon Alloy in Earth's Core? , 2002, Science.
[30] R. Cohen,et al. Elasticity of iron at the temperature of the Earth's inner core , 2001, Nature.
[31] R. Weiss,et al. Thermocline and intermediate water communication between the south Atlantic and Indian oceans , 1992 .
[32] K. Schwarz,et al. Electronic structure and chemical bonding effects upon the bcc toΩphase transition:Ab initiostudy of Y, Zr, Nb, and Mo , 2000 .
[33] Wills,et al. First-principles theory of iron up to earth-core pressures: Structural, vibrational, and elastic properties. , 1996, Physical review. B, Condensed matter.
[34] R. Cohen,et al. Constraints on the crystalline structure of the inner core: Mechanical instability of BCC iron at high pressure , 1995 .
[35] T. Crowley. North Atlantic Deep Water cools the southern hemisphere , 1992 .
[36] T. Guilderson,et al. Sequence of events during the last deglaciation in Southern Ocean sediments and Antarctic ice cores , 2002 .
[37] Gillan,et al. Melting curve of iron at Earth's core pressures from ab initio calculations , 1999 .
[38] T. Sowers,et al. Climate Records Covering the Last Deglaciation , 1995, Science.
[39] P. Hohenberg,et al. Inhomogeneous Electron Gas , 1964 .
[40] Helmberger,et al. Seismic evidence for an inner core transition zone , 1998, Science.
[41] M. J. Brown,et al. The equation of state of iron to 450 GPa: Another high pressure solid phase? , 2001 .
[42] A. Dziewoński,et al. The innermost inner core of the earth: Evidence for a change in anisotropic behavior at the radius of about 300 km , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[43] P. Leeuwen,et al. Upstream control of Agulhas ring shedding , 2002 .
[44] A. Kirkland,et al. Hydrological impact of heinrich events in the subtropical northeast atlantic , 2000, Science.
[45] Blöchl,et al. Projector augmented-wave method. , 1994, Physical review. B, Condensed matter.
[46] M. J. Gillan,et al. Constraints on the composition of the Earth's core from ab initio calculations , 2000, Nature.
[47] S. Lehman,et al. Glacial Surface Temperatures of the Southeast Atlantic Ocean , 2001, Science.
[48] Herzig,et al. Phonon dispersion of the bcc phase of group-IV metals. I. bcc titanium. , 1991, Physical review. B, Condensed matter.
[49] Carl Wunsch,et al. An estimate of global ocean circulation and heat fluxes , 1996, Nature.
[50] Kresse,et al. Efficient iterative schemes for ab initio total-energy calculations using a plane-wave basis set. , 1996, Physical review. B, Condensed matter.
[51] L. Vočadlo,et al. A new high-pressure phase of FeSi , 2002 .
[52] Klaus Hasselmann,et al. Mean Circulation of the Hamburg LSG OGCM and Its Sensitivity to the Thermohaline Surface Forcing , 1993 .
[53] H. Mao,et al. Melting and crystal structure of iron at high pressures and temperatures , 1998 .
[54] B. Stephens,et al. The influence of Antarctic sea ice on glacial–interglacial CO 2 variations , 2000, Nature.
[55] H. Stommel,et al. Thermohaline Convection with Two Stable Regimes of Flow , 1961 .