Julian Lowman
Julian Lowman
University of Toronto - Scarborough
Verified email at utsc.utoronto.ca
Title
Cited by
Cited by
Year
Lower-mantle seismic discontinuities and the thermal morphology of subducted slabs
C Thomas, JM Kendall, J Lowman
Earth and Planetary Science Letters 225 (1-2), 105-113, 2004
892004
Continental collisions in wide aspect ratio and high Rayleigh number two‐dimensional mantle convection models
JP Lowman, GT Jarvis
Journal of Geophysical Research: Solid Earth 101 (B11), 25485-25497, 1996
891996
Mantle convection models of continental collision and breakup incorporating finite thickness plates
JP Lowman, GT Jarvis
Physics of the Earth and Planetary Interiors 88 (1), 53-68, 1995
761995
Mantle convection flow reversals due to continental collisions
JP Lowman, GT Jarvis
Geophysical Research Letters 20 (19), 2087-2090, 1993
751993
Episodic tectonic plate reorganizations driven by mantle convection
SD King, JP Lowman, CW Gable
Earth and Planetary Science Letters 203 (1), 83-91, 2002
742002
Effects of mantle heat source distribution on supercontinent stability
JP Lowman, GT Jarvis
Journal of Geophysical Research: Solid Earth 104 (B6), 12733-12746, 1999
681999
The influence of mantle internal heating on lithospheric mobility: Implications for super-Earths
C Stein, JP Lowman, U Hansen
Earth and Planetary Science Letters 361, 448-459, 2013
632013
The influence of tectonic plates on mantle convection patterns, temperature and heat flow
JP Lowman, SD King, CW Gable
Geophysical Journal International 146 (3), 619-636, 2001
582001
Steady plumes in viscously stratified, vigorously convecting, three‐dimensional numerical mantle convection models with mobile plates
JP Lowman, SD King, CW Gable
Geochemistry, Geophysics, Geosystems 5 (1), 2004
472004
The pressure‐weakening effect in super‐Earths: Consequences of a decrease in lower mantle viscosity on surface dynamics
C Stein, A Finnenkötter, JP Lowman, U Hansen
Geophysical research letters 38 (21), 2011
432011
The effects of supercontinent size and thermal insulation on the formation of mantle plumes
PJ Heron, JP Lowman
Tectonophysics 510 (1-2), 28-38, 2011
422011
Thermal evolution of the mantle following continental aggregation in 3D convection models
JP Lowman, CW Gable
Geophysical Research Letters 26 (17), 2649-2652, 1999
411999
Emulating the thermal structure of spherical shell convection in plane-layer geometry mantle convection models
KA O’Farrell, JP Lowman
Physics of the Earth and Planetary Interiors 182 (1-2), 73-84, 2010
392010
Mantle convection with reversing mobile plates: A benchmark study
DE Koglin Jr, SR Ghias, SD King, GT Jarvis, JP Lowman
Geochemistry, Geophysics, Geosystems 6 (9), 2005
362005
The role of the heating mode of the mantle in intermittent reorganization of the plate velocity field
JP Lowman, SD King, CW Gable
Geophysical Journal International 152 (2), 455-467, 2003
362003
Convection in a spherical shell heated by an isothermal core and internal sources: Implications for the thermal state of planetary mantles
MH Shahnas, JP Lowman, GT Jarvis, HP Bunge
Physics of the Earth and Planetary Interiors 168 (1-2), 6-15, 2008
292008
Influences on the positioning of mantle plumes following supercontinent formation
PJ Heron, JP Lowman, C Stein
Journal of Geophysical Research: Solid Earth 120 (5), 3628-3648, 2015
252015
The impact of Rayleigh number on assessing the significance of supercontinent insulation
PJ Heron, JP Lowman
Journal of Geophysical Research: Solid Earth 119 (1), 711-733, 2014
232014
Mantle convection models featuring plate tectonic behavior: An overview of methods and progress
JP Lowman
Tectonophysics 510 (1-2), 1-16, 2011
232011
Survival times of subducted slab remnants in numerical models of mantle flow
GT Jarvis, JP Lowman
Earth and Planetary Science Letters 260 (1-2), 23-36, 2007
222007
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