Viscosity of the Earth's Mantle LM Cathles Princeton university press, 2015 | 1272 | 2015 |
Streaming potential in porous media: 2. Theory and application to geothermal systems A Revil, H Schwaeger, LM Cathles III, PD Manhardt Journal of Geophysical Research: Solid Earth 104 (B9), 20033-20048, 1999 | 623* | 1999 |
The impact of pore water chemistry on carbonate surface charge and oil wettability A Hiorth, LM Cathles, MV Madland Transport in porous media 85, 1-21, 2010 | 581 | 2010 |
Permeability of shaly sands A Revil, LM Cathles Iii Water resources research 35 (3), 651-662, 1999 | 533 | 1999 |
Thermal constraints on the formation of Mississippi Valley-type lead-zinc deposits and their implications for episodic basin dewatering and deposit genesis LM Cathles, AT Smith Economic Geology 78 (5), 983-1002, 1983 | 532 | 1983 |
Electrical conductivity in shaly sands with geophysical applications A Revil, LM Cathles Iii, S Losh, JA Nunn Journal of Geophysical Research: Solid Earth 103 (B10), 23925-23936, 1998 | 524 | 1998 |
An analysis of the cooling of intrusives by ground-water convection which includes boiling LM Cathles Economic Geology 72 (5), 804-826, 1977 | 472 | 1977 |
How long can a hydrothermal system be sustained by a single intrusive event? LM Cathles, AHJ Erendi, T Barrie Economic Geology 92 (7-8), 766-771, 1997 | 406 | 1997 |
The physics of gas chimney and pockmark formation, with implications for assessment of seafloor hazards and gas sequestration LM Cathles, Z Su, D Chen Marine and petroleum Geology 27 (1), 82-91, 2010 | 317 | 2010 |
A commentary on “The greenhouse-gas footprint of natural gas in shale formations” by RW Howarth, R. Santoro, and Anthony Ingraffea LM Cathles, L Brown, M Taam, A Hunter Climatic Change 113, 525-535, 2012 | 314 | 2012 |
Fluid flow and genesis of hydrothermal ore deposits LM Cathles | 278 | 1981 |
The fate of residual treatment water in gas shale T Engelder, LM Cathles, LT Bryndzia Journal of Unconventional Oil and Gas Resources 7, 33-48, 2014 | 254 | 2014 |
Massive vein-filling gas hydrate: relation to ongoing gas migration from the deep subsurface in the Gulf of Mexico R Sassen, SL Losh, L Cathles III, HH Roberts, JK Whelan, AV Milkov, ... Marine and Petroleum Geology 18 (5), 551-560, 2001 | 226 | 2001 |
Seep carbonates and preserved methane oxidizing archaea and sulfate reducing bacteria fossils suggest recent gas venting on the seafloor in the Northeastern South China Sea DF Chen, YY Huang, XL Yuan, LM Cathles III Marine and petroleum Geology 22 (5), 613-621, 2005 | 219 | 2005 |
An analysis of the hydrothermal system responsible for massive sulfide deposition in the Hokuroku Basin of Japan LM Cathles | 203 | 1983 |
Numerical models for the hydrothermal field at the Galapagos spreading center U Fehn, KE Green, RP Von Herzen, LM Cathles Journal of Geophysical Research: Solid Earth 88 (B2), 1033-1048, 1983 | 148 | 1983 |
A model of the dump leaching process that incorporates oxygen balance, heat balance, and air convection LM Cathles, JA Apps Metallurgical Transactions B 6, 617-624, 1975 | 143 | 1975 |
Scales and effects of fluid flow in the upper crust LM Cathles III Science 248 (4953), 323-329, 1990 | 141 | 1990 |
Phase fractionation at south eugene island block 330 P Meulbroek, L Cathles III, J Whelan Organic Geochemistry 29 (1-3), 223-239, 1998 | 137 | 1998 |
Chemical alterations induced by rock–fluid interactions when injecting brines in high porosity chalks MV Madland, A Hiorth, E Omdal, M Megawati, T Hildebrand-Habel, ... Transport in porous media 87, 679-702, 2011 | 136 | 2011 |