SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2100363405> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W2100363405 endingPage "398" @default.
W2100363405 startingPage "392" @default.
W2100363405 abstract "The thermal conductivity of the lowermost mantle determines the rate at which heat flows across the core–mantle boundary, and consequently plays a central role in the thermal evolution of both the mantle as well as the core. In an effort to test and improve model estimates of thermal conductivity in the deep mantle, we perform first-principles computations of the lattice conductivity for MgO periclase. The method uses the Peierls–Boltzmann transport equation via a combination of first-principles molecular dynamics and first-principles lattice dynamics. Phonon lifetimes are found to be inversely proportional to temperature, and increases 3-fold as the density is increased from 3.37 to 5.49 g/cm3. Thermal conductivities increase nearly 6-fold over the same density interval, and show excellent agreement with the available experimental measurements. We use these results to assess how conductivity measurements of mantle minerals can be reliably extrapolated to conditions characteristic of the lowermost mantle, and find Debye theory to be superior for this task. We then apply this insight to estimate the conductivity of MgSiO3 perovskite in the lowermost mantle, and combine this with our computational results for MgO periclase to construct a model estimate for a representative lower mantle assemblage. We find the mantle conductivity to be 5.9 ± 0.6 W/m K at the top of the thermal boundary layer and 4.0 ± 0.5 W/m K at its base, implying core–mantle boundary heat flux values at the lower end of geophysical estimates." @default.
W2100363405 created "2016-06-24" @default.
W2100363405 creator A5058876505 @default.
W2100363405 date "2010-04-01" @default.
W2100363405 modified "2023-10-03" @default.
W2100363405 title "Thermal conductivity of MgO periclase at high pressure: Implications for the D″ region" @default.
W2100363405 cites W1485388173 @default.
W2100363405 cites W1496410283 @default.
W2100363405 cites W1518740426 @default.
W2100363405 cites W1968115886 @default.
W2100363405 cites W1969882631 @default.
W2100363405 cites W1970211947 @default.
W2100363405 cites W1972481136 @default.
W2100363405 cites W1973029646 @default.
W2100363405 cites W1973707573 @default.
W2100363405 cites W1977154222 @default.
W2100363405 cites W1980076870 @default.
W2100363405 cites W1981295951 @default.
W2100363405 cites W1982066092 @default.
W2100363405 cites W1991799740 @default.
W2100363405 cites W1993790610 @default.
W2100363405 cites W1995253253 @default.
W2100363405 cites W1999608127 @default.
W2100363405 cites W2007137419 @default.
W2100363405 cites W2007395042 @default.
W2100363405 cites W2008242709 @default.
W2100363405 cites W2012218072 @default.
W2100363405 cites W2020060628 @default.
W2100363405 cites W2021065582 @default.
W2100363405 cites W2024219013 @default.
W2100363405 cites W2026147422 @default.
W2100363405 cites W2026907619 @default.
W2100363405 cites W2028468913 @default.
W2100363405 cites W2030976617 @default.
W2100363405 cites W2033824135 @default.
W2100363405 cites W2036113194 @default.
W2100363405 cites W2037340163 @default.
W2100363405 cites W2040283378 @default.
W2100363405 cites W2042512669 @default.
W2100363405 cites W2047877383 @default.
W2100363405 cites W2050755530 @default.
W2100363405 cites W2051724188 @default.
W2100363405 cites W2053563439 @default.
W2100363405 cites W2055698188 @default.
W2100363405 cites W2062221814 @default.
W2100363405 cites W2063864058 @default.
W2100363405 cites W2069970015 @default.
W2100363405 cites W2073046845 @default.
W2100363405 cites W2073276525 @default.
W2100363405 cites W2075877487 @default.
W2100363405 cites W2076469125 @default.
W2100363405 cites W2078202970 @default.
W2100363405 cites W2085876181 @default.
W2100363405 cites W2087155574 @default.
W2100363405 cites W2088959060 @default.
W2100363405 cites W2091450224 @default.
W2100363405 cites W2113114085 @default.
W2100363405 cites W2114601578 @default.
W2100363405 cites W2116284155 @default.
W2100363405 cites W2118109506 @default.
W2100363405 cites W2126388052 @default.
W2100363405 cites W2149058707 @default.
W2100363405 cites W2156166746 @default.
W2100363405 cites W2168137993 @default.
W2100363405 cites W2171841761 @default.
W2100363405 cites W2230728100 @default.
W2100363405 doi "https://doi.org/10.1016/j.epsl.2010.02.011" @default.
W2100363405 hasPublicationYear "2010" @default.
W2100363405 type Work @default.
W2100363405 sameAs 2100363405 @default.
W2100363405 citedByCount "82" @default.
W2100363405 countsByYear W21003634052012 @default.
W2100363405 countsByYear W21003634052013 @default.
W2100363405 countsByYear W21003634052014 @default.
W2100363405 countsByYear W21003634052015 @default.
W2100363405 countsByYear W21003634052016 @default.
W2100363405 countsByYear W21003634052017 @default.
W2100363405 countsByYear W21003634052018 @default.
W2100363405 countsByYear W21003634052019 @default.
W2100363405 countsByYear W21003634052020 @default.
W2100363405 countsByYear W21003634052021 @default.
W2100363405 countsByYear W21003634052022 @default.
W2100363405 countsByYear W21003634052023 @default.
W2100363405 crossrefType "journal-article" @default.
W2100363405 hasAuthorship W2100363405A5058876505 @default.
W2100363405 hasConcept C121332964 @default.
W2100363405 hasConcept C127313418 @default.
W2100363405 hasConcept C127723449 @default.
W2100363405 hasConcept C151730666 @default.
W2100363405 hasConcept C160804572 @default.
W2100363405 hasConcept C163686574 @default.
W2100363405 hasConcept C199289684 @default.
W2100363405 hasConcept C2776230739 @default.
W2100363405 hasConcept C2778758504 @default.
W2100363405 hasConcept C5900021 @default.
W2100363405 hasConcept C67236022 @default.
W2100363405 hasConcept C8058405 @default.
W2100363405 hasConcept C97346530 @default.