Effects of depth- and composition-dependent thermal conductivity and the compositional viscosity ratio on the long-term evolution of large thermochemical piles of primordial material in the lower mantle of the Earth: Insights from 2-D numerical modeling
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Earth and Planetary Sciences
Link
https://link.springer.com/content/pdf/10.1007/s11430-022-1111-6.pdf
Reference62 articles.
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3. Ballmer M D, Houser C, Hernlund J W, Wentzcovitch R M, Hirose K. 2017. Persistence of strong silica-enriched domains in the Earth’s lower mantle. Nat Geosci, 10: 236–240
4. Biggin A J, Steinberger B, Aubert J, Suttie N, Holme R, Torsvik T H, van der Meer D G, van Hinsbergen D J J. 2012. Possible links between long-term geomagnetic variations and whole-mantle convection processes. Nat Geosci, 5: 526–533
5. Christensen U R, Yuen D A. 1985. Layered convection induced by phase transitions. J Geophys Res-Solid Earth, 90: 10291–10300
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