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S. Rubinstein and J. Fineberg, The Onset of Frictional Slip, Proceedings of the 11th International Conference on Fracture (Turino, 2005).
S. M. Rubinstein, G. Cohen, and J. Fineberg, Detachment Fronts and the onset of friction, Nature 430, 1005-1009 (2004).
S. M. Rubinstein, M. Shay, G. Cohen, and J. Fineberg, Crack-Like processes governing the onset of Frictional Slip, the International Journal of Fracture, 140, 201-212 (2006).
S. M. Rubinstein, G. Cohen, and J. Fineberg, Contact area measurements reveal loading history dependence of static friction., Phys. Rev. Lett. 96, 256103 (2006)
S. M. Rubinstein, G. Cohen, and J. Fineberg, The Dynamics of Precursors to frictional sliding. Phys. Rev. Lett. 98, 226103 (2007) .Abstract |
S. M. Rubinstein, G. Cohen, and J. Fineberg, Crack-like processes within frictional motion - Is slow frictional sliding really a slow process?, Bulletin of the Materials Research Society, 33, 1181-1189 (2008).Abstract |
Shmuel M. Rubinstein, Gil Cohen, Ze'ev Reches and Jay Fineberg, Slip sequences in laboratory experiments as analogues to earthquakes associated with a fault edge, Meso-Scale Shear Physics in Earthquake and Landslide Mechanics, CRC Press (2009).
S. M. Rubinstein, G. Cohen, and J. Fineberg, Visualizing Stick-Slip: Experimental observations of processes governing the nucleation of frictional sliding, J. Phys. D: Appl. Phys. 42 214016, (2009)
O. Ben-David, S. M. Rubinstein, J. Fineberg, Slip-Stick: The Evolution of Frictional Strength, Nature 463, 76-79, 2010.
O. Ben-David and J. Fineberg, “Short-time Dynamics of Frictional Strength in Dry Friction”, Tribology Letters 39, 235-245 (2010).
S. M. Rubinstein, I. Barel, Z. Reches, O. M. Braun, M. Urbakh and J.Fineberg, Slip sequences in laboratory experiments resulting from inhomogeneous shear as analogs of earthquakes associated with a fault edge, Pure and Applied Geophysics 168, (Dec. 2011).
O. Ben-David, G. Cohen, J. Fineberg, The dynamics of the onset of frictional slip,Science 330, 211 (2010).
O. Ben-David and J. Fineberg, , Static Friction Coefficient Is Not a Material Constant, Phys. Rev. Lett. 106, 254301 (2011).
R.Capozza, S. M. Rubinstein, I. Barel, M. Urbakh, and J.Fineberg, Stabilizing Stick-Slip Friction, Phys. Rev. Lett. 107, 024301 (2011).
J. Fineberg, Diamonds are forever- or are they? , Nature Materials 10, 3, (2011).
I. Svetlizky and J. Fineberg, Classical Shear Cracks Drive the Onset of Dry Frictional Motion, Nature, 509 205–208 (2014).
J. I. Walter, I. Svetlizky, J. Fineberg, E. E. Brodsky, S. Tulaczyk, and S. P. Carter, Rupture speed dependence on initial stress profiles: 1nsights from glacier and laboratory stick-slip , Earth and Planetary Science Letters, 411, 112-120 (2015)
E. Bayart, I. Svetlizky and J. Fineberg, Frictional sliding: when do interfacial ruptures stop? Nature Physics 12, 166–170 (2016).
. I. Svetlizky, D. Pino Munoz, M. Radiguet, D. S. Kammer, J. F. Molinari and J. Fineberg, Properties of the shear stress peak radiated ahead of rapidly accelerating rupture fronts that mediate frictional slip, PNAS 113, 542-547 (2016).
E. Bayart, I. Svetlizky and J. Fineberg, Slippery but tough - the rapid fracture of lubricated frictional interfaces, Phys. Rev. Lett. 116, 194301 (2016).
H. Shlomai and J. Fineberg, The structure of slip-pulses and supershear ruptures driving slip in bimaterial friction, Nature Comm. 7, 11787 (2016).
I. Svetlizky, D. Pino Munoz, M. Radiguet, D. S. Kammer, J. F. Molinari and J. Fineberg, Properties of the shear stress peak radiated ahead of rapidly accelerating rupture fronts that mediate frictional slip, PNAS 113, 542-547 (2016).
E. Bayart, I. Svetlizky and J. Fineberg, Slippery but tough - the rapid fracture of lubricated frictional interfaces, Phys. Rev. Lett. 116, 194301 (2016).
M. Aldam, Y. Bar-Sinai1, I. Svetlizky, E. A. Brener, J. Fineberg, and E. Bouchbinder, Frictional sliding with geometrically broken refection symmetry, Phys. Rev. X , 6, 041023 (2016).
I. Svetlizky, D.S. Kammer, E. Bayart, G. Cohen, J. Fineberg, Brittle Fracture Theory Predicts the Equation of Motion of Frictional Rupture Fronts, Phys. Rev. Lett. 118, 125501 (2017).
I. Svetlizky, Elsa Bayart, Gil Cohen, and Jay Fineberg, Frictional Resistance within the Wake of Frictional Rupture Fronts, Phys. Rev. Lett. 118, 234301 (2017).
E. Bayart, I. Svetlizky, J. Fineberg, Rupture Dynamics of Heterogeneous Frictional Interfaces, JGR 123, 3828-3848 (2018).
D. S. Kammer, I. Svetlizky, G. Cohen and J. Fineberg, The equation of motion for supershear frictional rupture fronts, Science Advances 4, eaat5622 (2018).
I. Svetlizky, E. Bayart, J. Fineberg, Brittle Fracture Theory Describes the Onset of Frictional Motion , Annual Review of Condensed Matter Physics 10, 253-273 (2019)
I. Svetlizky, G Albertini, G Cohen, DS Kammer, J Fineberg, Dynamic fields at the tip of sub-Rayleigh and supershear frictional rupture fronts, JMPS 137,103826 (2020)
H. Shlomai, D.S Kammer, M. Adda-Bedia, J.Fineberg, The onset of the frictional motion of dissimilar materials PNAS 117 (24) 13379-13385 (2020).
H. Shlomai, M. Adda-Bedia, R. E. Arias, J. Fineberg, Supershear frictional ruptures along bi-material interfaces, JGR 125 e2020JB019829 (2020).
N. Berman, G. Cohen and J. Fineberg, The Dynamics and Properties of the Cohesive Zone in Rapid Fracture and Friction, Phys. Rev. Lett. 125, 125503 (2020).
H. Shlomai, D. S. Kammer, M. Adda-Bedia, R. Arias, and J. Fineberg, Unstable cracks trigger asymptotic upture modes in bimaterial friction, JMPS 149, 104330 (2021).
S. Gvirtzman and J. Fineberg, The initiation of frictional motion - the nucleation dynamics of frictional ruptures, Nature Physics volume 17, 1037–1042 (2021).
Z. Reches and J. Fineberg, Earthquakes as dynamic fracture phenomena, (submitted 9/2022).
S. Gvirtzman and J. Fineberg, The initiation of frictional motion - the nucleation dynamics of frictional ruptures, JGR (to appear 2023).
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