相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Challenges on Mercury's Interior Structure Posed by the New Measurements of its Obliquity and Tides
G. Steinbrugge et al.
GEOPHYSICAL RESEARCH LETTERS (2021)
Martian core heat flux: Electrical resistivity and thermal conductivity of liquid Fe at martian core P-T conditions
Innocent C. Ezenwa et al.
ICARUS (2021)
Electrical Resistivity Measurements of Fe-Si With Implications for the Early Lunar Dynamo
Meryem Berrada et al.
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS (2020)
Low thermal conductivity of iron-silicon alloys at Earth's core conditions with implications for the geodynamo
Wen-Pin Hsieh et al.
NATURE COMMUNICATIONS (2020)
Heat Flow in Earth's Core From Invariant Electrical Resistivity of Fe-Si on the Melting Boundary to 9 GPa: Do Light Elements Matter?
Reynold E. Silber et al.
JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH (2019)
Mercury's thermal evolution controlled by an insulating liquid outermost core?
Anne Pommier et al.
EARTH AND PLANETARY SCIENCE LETTERS (2019)
Fe Melting Transition: Electrical Resistivity, Thermal Conductivity, and Heat Flow at the Inner Core Boundaries of Mercury and Ganymede
Innocent C. Ezenwa et al.
CRYSTALS (2019)
The Iron Invariance: Implications for Thermal Convection in Earth's Core
Wenjun Yong et al.
GEOPHYSICAL RESEARCH LETTERS (2019)
Pressure and Composition Effects on Sound Velocity and Density of Core-Forming Liquids: Implication to Core Compositions of Terrestrial Planets
Hidenori Terasaki et al.
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS (2019)
The thermal evolution of Mercury's Fe-Si core
Jurrien Sebastiaan Knibbe et al.
EARTH AND PLANETARY SCIENCE LETTERS (2018)
Electrical resistivity of liquid Fe to 12GPa: Implications for heat flow in cores of terrestrial bodies
Reynold E. Silber et al.
SCIENTIFIC REPORTS (2018)
Thermal conductivity and Seebeck coefficient of Fe and Fe-Si alloys: Implications for variable Lorenz number
Richard A. Secco
PHYSICS OF THE EARTH AND PLANETARY INTERIORS (2017)
Experimental determination of the electrical resistivity of iron at Earth's core conditions
Kenji Ohta et al.
NATURE (2016)
Evolution of the interior of Mercury influenced by coupled magmatism-mantle convection system and heat flux from the core
Masaki Ogawa
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS (2016)
Mercury's inner core size and core-crystallization regime
Mathieu Dumberry et al.
ICARUS (2015)
Low-altitude magnetic field measurements by MESSENGER reveal Mercury's ancient crustal field
Catherine L. Johnson et al.
SCIENCE (2015)
Iron snow, crystal floats, and inner-core growth: modes of core solidification and implications for dynamos in terrestrial planets and moons
Doris Breuer et al.
PROGRESS IN EARTH AND PLANETARY SCIENCE (2015)
Experimental constraints on Mercury's core composition
Nancy L. Chabot et al.
EARTH AND PLANETARY SCIENCE LETTERS (2014)
Phase relations in the Fe-FeSi system at high pressures and temperatures
Rebecca A. Fischer et al.
EARTH AND PLANETARY SCIENCE LETTERS (2013)
The interior structure of Mercury constrained by the low-degree gravity field and the rotation of Mercury
A. Rivoldini et al.
EARTH AND PLANETARY SCIENCE LETTERS (2013)
High pressure and temperature electrical resistivity of iron and implications for planetary cores
Liwei Deng et al.
GEOPHYSICAL RESEARCH LETTERS (2013)
The curious case of Mercury's internal structure
Steven A. Hauck et al.
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS (2013)
Thermochemical evolution of Mercury's interior
N. Tosi et al.
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS (2013)
PLANETARY SCIENCE Mercury's mysteries start to unfold
David J. Stevenson
NATURE (2012)
Gravity Field and Internal Structure of Mercury from MESSENGER
David E. Smith et al.
SCIENCE (2012)
Thermo-chemical evolution and global contraction of mercury
M. Grott et al.
EARTH AND PLANETARY SCIENCE LETTERS (2011)
The Fe-rich liquidus in the Fe-FeS system from 1 bar to 10 GPa
Antonio S. Buono et al.
GEOCHIMICA ET COSMOCHIMICA ACTA (2011)
The Global Magnetic Field of Mercury from MESSENGER Orbital Observations
Brian J. Anderson et al.
SCIENCE (2011)
Highly reducing conditions during core formation on Mercury: Implications for internal structure and the origin of a magnetic field
Valrie Malavergne et al.
ICARUS (2010)
Non-ideal liquidus curve in the Fe-S system and Mercury's snowing core
Bin Chen et al.
GEOPHYSICAL RESEARCH LETTERS (2008)
Models of magnetic field generation in partly stable planetary cores: Applications to Mercury and Saturn
Ulrich R. Christensen et al.
ICARUS (2008)
A deep dynamo generating Mercury's magnetic field
Ulrich R. Christensen
NATURE (2006)
Internal and tectonic evolution of Mercury
SA Hauck et al.
EARTH AND PLANETARY SCIENCE LETTERS (2004)