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Nov 2010 Equations of state, melting curves, compositional gradients Project still broadly defined in terms of interdisciplinary aspect MP meeting (Ann Arbor)/2010 Fall AGU
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“Snowfall” in Earth’s core and the natureof the inner-core boundary
Jeffrey Pigott – Mineral Physics (Ohio State) Jackie Li – Mineral Physics (U of Michigan)Bin Chen – Mineral Physics ( U of Michigan)Matt Armentrout – Mineral Physics (UCLA)
Antonio Buono – Mineral Physics (MIT)John Hernlund – Geodynamics (UC-Berkeley)Jodi Gaeman – Geodynamics (U of Maryland)
Lauren Waszek – Seismology (Cambridge)
CIDER 2010 - KITP
Outer Core
Inner Core
F-layer
PREMAK135PREM2
Zou et al., 2008 (JGR)
Chen et al., 2008 (GRL)Hauck et al., 2006 (JGR)
Nov 2010 Equations of state,
melting curves, compositional gradients
Project still broadly defined in terms of interdisciplinary aspect
MP meeting (Ann Arbor)/2010 Fall AGU
MP meeting (Ann Arbor, Nov 2011) Parameter space for
“snowing” using seismic, experimental, and theoretical constraints Snowing – Fe-S, Fe-C?,
Fe-Si? No snow – Pure Fe, Fe-
H, likely Fe-C and Fe-Si
Relationship between melting curve and adiabat
Can solid/liquid fraction account for Vp gradient?
Top
of F
-laye
r
Geodynamics
Evolution of thermal, compositonal, and structural profiles with time
Stability of F-layer
Origin of stratified layer
Comments and Suggestions
Defined leadership role
Positives Easy exchange among different disciplines at CIDER Helpful interaction within MP sub-group
Collaboration that otherwise would not have occurred
Negatives Difficulty following up with interdisciplinary communication
Short (~3-5 day) semi-annual workshops for established groups Difficulty generating a concrete product
Viewed as a “side-project”
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