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MARONE, CHRIS JAMES

MARONE, CHRIS JAMES  

DIPARTIMENTO DI SCIENZE DELLA TERRA  

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Risultati 1 - 20 di 136 (tempo di esecuzione: 0.047 secondi).
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A method for determining absolute ultrasonic velocities and elastic properties of experimental shear zones 2020 Kenigsberg, A. R.; Riviere, J.; Marone, C. J.; Saffer, D. M.
A note on the stress-dilatancy relation for simulated fault gouge 1991 Marone, C. J.
A novel and versatile apparatus for brittle rock deformation 2014 Collettini, Cristiano; Giuseppe Di, Stefano; Brett, Carpenter; Piergiorgio, Scarlato; Telemaco, Tesei; Mollo, Silvio; Trippetta, Fabio; Chris, Marone; Gianni, Romeo; Lauro, Chiaraluce
Acoustic emission and microslip precursors to stick-slip failure in sheared granular material 2013 Johnson, P. A; Ferdowsi, B.; Kaproth, B. M.; Scuderi, MARCO MARIA; Griffa, M.; Carmeliet, J.; Guyer, R. A.; Le Bas, P. Y.; Trugman, D. T.; Marone, C.
Acoustic energy release during the laboratory seismic cycle. Insights on laboratory earthquake precursors and prediction 2020 Bolton, D. C.; Shreedharan, S.; Riviere, J.; Marone, C. J.
An experimental study of permeability and fluid chemistry in an artificially jointed marble 1988 Marone, C. J.; Rubenstone, J.; Engelder, T.
Application of constitutive friction laws to glacier seismicity 2020 Zoet, L. K.; Ikari, M. J.; Alley, R. B.; Marone, C. J.; Anandakrishnan, S.; Carpenter, B. M.; Scuderi, M. M.
Attention network forecasts time-to-failure in laboratory shear experiments 2021 Jasperson, H.; Bolton, D. C.; Johnson, P.; Guyer, R.; Marone, C. J.; de Hoop, M. V.
Basaltic volcanism and extension near the intersection of the Sierra Madre volcanic province and the Mexican Volcanic Belt 1994 Moore, G.; Marone, C. J.; Carmichael, I. S. E.; Renne, P.
Bifurcations at the stability transition of earthquake faulting 2020 Mele Veedu, D.; Giorgetti, C.; Scuderi, M.; Barbot, S.; Marone, C.; Collettini, C.
Breakdown pressure and fracture surface morphology of hydraulic fracturing in shale with H2O, CO2 and N2 2016 Li, X.; Feng, Z.; Han, G.; Elsworth, D.; Marone, C. J.; Saffer, D.; Cheon, D. -S.
Clay fabric intensity in natural and artificial fault gouges: Implications for brittle fault zone processes and sedimentary basin clay fabric evolution 2009 Haines, S. H.; Van Der Pluijm, B. A.; Ikari, M. J.; Saffer, D. M.; Marone, C. J.
Cold Diffusion Model for Seismic Denoising 2024 Trappolini, Daniele; Laurenti, Laura; Poggiali, Giulio; Tinti, Elisa; Galasso, Fabio; Michelini, Alberto; Marone, Chris
Comparison of smectite- and illite-rich gouge frictional properties: Application to the updip limit of the seismogenic zone along subduction megathrusts 2003 Saffer, D. M.; Marone, C. J.
Competition between preslip and deviatoric stress modulates precursors for laboratory earthquakes 2021 Shreedharan, S.; Bolton, D. C.; Rivière, J.; Marone, C. J.
Constraining maximum event magnitude during injection-triggered seismicity 2021 Li, Z.; Elsworth, D.; Wang, C.; Boyd, L.; Frone, Z.; Metcalfe, E.; Nieto, A.; Porse, S.; Vandermeer, W.; Podgorney, R.; Huang, H.; Mcling, T.; Neupane, G.; Chakravarty, A.; Cook, P. J.; Dobson, P. F.; Doughty, C. A.; Guglielmi, Y.; Hopp, C.; Hu, M.; Jayne, R. S.; Johnson, S. E.; Kim, K.; Kneafsey, T.; Nakagawa, S.; Newman, G.; Petrov, P.; Primo, J. C.; Robertson, M.; Rodriguez-Tribaldos, V.; Rutqvist, J.; Schoenball, M.; Sonnenthal, E. L.; Soom, F. A.; Sprinkle, S.; Ulrich, C.; Valladao, C. A.; Wood, T.; Zhang, Y. Q.; Zhou, Q.; Huang, L.; Chen, Y.; Chen, T.; Chi, B.; Feng, Z.; Frash, L. P.; Gao, K.; Jafarov, E.; Karra, S.; Makedonska, N.; Li, D.; Li, J.; Pawar, R.; Welch, N.; Fu, P.; Mellors, R. J.; Morency, C. E.; Morris, J. P.; Sherman, C. S.; Smith, M. M.; Templeton, D.; Wagoner, J. L.; White, J.; Wu, H.; Moore, J.; Brown, S.; Crandall, D.; Mackey, P.; Paronish, T.; Workman, S.; Johnston, B.; Beckers, K.; Weers, J.; Polsky, Y.; Maceira, M.; Chai, C. P.; Bonneville, A.; Burghardt, J. A.; Horner, J.; Johnson, T. C.; Knox, H.; Knox, J.; Roberts, B. Q.; Sprinkle, P.; Strickland, C. E.; Thomle, J. N.; Vermeul, V. R.; White, M. D.; Blankenship, D.; Ingraham, M.; Myers, T.; Pope, J.; Schwering, P.; Foris, A.; King, D. K.; Feldman, J.; Lee, M.; Su, J.; Baumgartner, T.; Heise, J.; Horn, M.; Pietzyk, B.; Rynders, D.; Vandine, G.; Vardiman, D.; Doe, T.; Mclennan, J.; Wu, Y. S.; Miskimins, J.; Winterfeld, P.; Kutun, K.; Zoback, M. D.; Singh, A.; Horne, R. N.; Li, K.; Hawkins, A.; Zhang, Y.; Mattson, E.; Elsworth, D.; Im, K. J.; Li, Z.; Marone, C. J.; Yildirim, E. C.; Ajo-Franklin, J.; Ghassemi, A.; Kumar, D.; Sesetty, V.; Vachaparampil, A.; Wang, H. F.; Sone, H.; Condon, K.; Haimson, B.; Roggenthen, W.; Medler, C.; Uzunlar, N.; Reimers, C.; Mcclure, M. W.
Coulomb constitutive laws for friction: Contrasts in frictional behavior for distributed and localized shear 1992 Marone, C. J.; Hobbs, B. E.; Ord, A.
Creation of a mixed‐mode fracture network at mesoscale through hydraulic fracturing and shear stimulation 2020 Schoenball, M.; Ajo-Franklin, J. B.; Blankenship, D.; Chai, C.; Chakravarty, A.; Dobson, P.; Hopp, C.; Kneafsey, T.; Knox, H. A.; Maceira, M.; Robertson, M. C.; Sprinkle, P.; Strickland, C.; Templeton, D.; Schwering, P. C.; Ulrich, C.; Wood, T.; Ajo-Franklin, J.; Baumgartner, T.; Beckers, K.; Blankenship, D.; Bonneville, A.; Boyd, L.; Brown, S.; Burghardt, J. A.; Chai, C.; Chakravarty, A.; Chen, T.; Chen, Y.; Chi, B.; Condon, K.; Cook, P. J.; Crandall, D.; Dobson, P. F.; Doe, T.; Doughty, C. A.; Elsworth, D.; Feldman, J.; Feng, Z.; Foris, A.; Frash, L. P.; Frone, Z.; Fu, P.; Gao, K.; Ghassemi, A.; Guglielmi, Y.; Haimson, B.; Hawkins, A.; Heise, J.; Hopp, C.; Horn, M.; Horne, R. N.; Horner, J.; Hu, M.; Huang, H.; Huang, L.; Im, K. J.; Ingraham, M.; Jafarov, E.; Jayne, R. S.; Johnson, T. C.; Johnson, S. E.; Johnston, B.; Karra, S.; Kim, K.; King, D. K.; Kneafsey, T.; Knox, H.; Knox, J.; Kumar, D.; Kutun, K.; Lee, M.; Li, K.; Li, Z.; Maceira, M.; Mackey, P.; Makedonska, N.; Marone, C. J.; Mattson, E.; Mcclure, M. W.; Mclennan, J.; Mcling, T.; Medler, C.; Mellors, R. J.; Metcalfe, E.; Miskimins, J.; Moore, J.; Morency, C. E.; Morris, J. P.; Myers, T.; Nakagawa, S.; Neupane, G.; Newman, G.; Nieto, A.; Paronish, T.; Pawar, R.; Petrov, P.; Pietzyk, B.; Podgorney, R.; Polsky, Y.; Pope, J.; Porse, S.; Primo, J. C.; Reimers, C.; Roberts, B. Q.; Robertson, M.; Rodriguez-Tribaldos, V.; Roggenthen, W.; Rutqvist, J.; Rynders, D.; Schoenball, M.; Schwering, P.; Sesetty, V.; Sherman, C. S.; Singh, A.; Smith, M. M.; Sone, H.; Sonnenthal, E. L.; Soom, F. A.; Sprinkle, D. P.; Sprinkle, S.; Strickland, C. E.; Su, J.; Templeton, D.; Thomle, J. N.; Ulrich, C.; Uzunlar, N.; Vachaparampil, A.; Valladao, C. A.; Vandermeer, W.; Vandine, G.; Vardiman, D.; Vermeul, V. R.; Wagoner, J. L.; Wang, H. F.; Weers, J.; Welch, N.; White, J.; White, M. D.; Winterfeld, P.; Wood, T.; Workman, S.; Wu, H.; Wu, Y. S.; Yildirim, E. C.; Zhang, Y.; Zhang, Y. Q.; Zhou, Q.; Zoback, M. D.
Creep fronts and complexity in laboratory earthquake sequences illuminate delayed earthquake triggering 2022 Cebry, S. B. L.; Ke, C. -Y.; Shreedharan, S.; Marone, C. J.; Kammer, D. S.; Mclaskey, G. C.
Deep learning can predict laboratory quakes from active source seismic data 2021 Shokouhi, P.; Girkar, V.; Riviere, J.; Shreedharan, S.; Marone, C. J.; Giles, C. L.; Kifer, D.