Fluids by design using chaotic surface waves to create a metafluid that is Newtonian, thermal, and entirely tunable“, KJ Welch, A Liebman-Peláez, EI Corwin, PNAS, 113(39), (2016).

Hidden symmetries in jammed systems“, PK Morse, EI Corwin, JStat, Special Issue on Structure in Glassy and Jammed Systems, 074009 (2016).

Universal Non-Debye Scaling in the Density of States of Amorphous Solids“, P Charbonneau, EI Corwin, G Parisi, A Poncet, F Zamponi, PRL, 117, 045503 (2016).

Geometric order parameters derived from the Voronoi tesselation show signatures of the jamming transition“, PK Morse, EI Corwin, Soft Matter, 12(4), 1248-1255 (2016). Supplemental Material


Jamming Criticality Revealed by Removing Localized Buckling Excitations“, P Charbonneau, EI Corwin, G Parisi, F Zamponi, Phys Rev Lett114, 125504 (2015). Supplemental Material

Atomistic study of macroscopic analogs to short chain molecules“, KJ Welch, CSG Kilmer, EI Corwin, Phys Rev E, 91, 022603 (2015). Supplemental Material

Structure of marginally jammed polydisperse packings of frictionless spheres“, C Zhang, CB O’Donovan, EI Corwin, F Cardinaux, TG Mason, ME Möbius, F Scheffold, Phys Rev E91, 032302 (2015).


Elliminating Friction with Friction: 2D Janssen Effect in a Friction-Driven System“, MY Karim, EI Corwin, Phys Rev Lett112, 188001 (2014).

Ballistic and diffusive dynamics in a two-dimensional ideal gas of macroscopic chaotic Faraday waves“, KJ Welch, I Hastings-Hauss, R Parthasarathy, EI Corwin, Phys Rev E89, 042143 (2014).

Geometric Signatures of Jamming in the Mechanical Vacuum“, PK Morse, EI Corwin, Phys Rev Lett112, 115701 (2014). Supplemental Material


Mean-field granocentric approach in 2D & 3D polydisperse, frictionless packings“, CB O’Donovan, EI Corwin, ME Möbius, Philos. Mag., 93:31-33, 4030-4056 (2013).

Bond percolation in higher dimensions” EI Corwin, R Stinchcombe, MF Thorpe, Phys Rev E88, 014102 (2013).


Universal Microstructure and Mechanical Stability of Jammed Packings“, P Charbonneau, EI Corwin, G Parisi, F Zamponi, Phys Rev Lett, 109, 205501 (2012). Supplemental Material

Getting into a Proper Jam” EI Corwin, Physics, 5, 97 (2012).


Unfolding proteins with an atomic force microscope: Force-fluctuation-induced nonexponential kinetics” M Clusel, EI Corwin, Phys Rev E, 84, 041920 (2011).

The role of interstitial gas in determining the impact response of granular beds” JR Royer, B Conyers, EI Corwin, PJ Eng, HM Jaeger, Euro Phys Lett, 93, 28008 (2011).


Model for random packing of polydisperse frictionless spheres” EI Corwin, M Clusel, AON Siemens, and J Brujic, Soft Matter, 6, 2949-2959 (2010).


A ‘granocentric’ model for random packing of jammed emulsions” M Clusel, EI Corwin, AON Siemens, and J Brujic, Nature, 460, 611-615 (2009).


Birth and growth of a granular jet” JR Royer, EI Corwin, B Conyers, A Flior, ML Rivers, PJ Eng, and HM Jaeger, Phys Rev E 78, 011305, (2008).

Granular flow in a rapidly rotated system with fixed walls” EI Corwin, Phys Rev E, 77, 031308 (2008).

Temporal force fluctuations measured by tracking individual particles in granular materials under shear” EI Corwin, ET Hoke, Jaeger HM, and Nagel SR, Phys Rev E, 77, (2008).


Gas-mediated impact dynamics in fine-grained granular materials” JR Royer, EI Corwin, PJ Eng, and HM Jaeger, Phys Rev Lett, 99, 038003, (2007).


Kinetically driven self assembly of highly ordered nanoparticle monolayers” TP Bigioni, XM Lin, TT Nguyen, EI Corwin, TA Witten, and HM Jaeger, Nature Materials, 5, 265-270, (2006).


Formation of granular jets observed by high-speed X-ray radiography” JR Royer, EI Corwin, A Flior, ML Cordero, ML Rivers, PJ Eng, and HM Jaeger, Nature Physics,1, 164-167, (2005).

Structural signature of jamming in granular media” EI Corwin, HM Jaeger, and SR Nagel, Nature, 435, 1075-1078, (2005).


Flow and fracture in drying nanoparticle suspensions” ER Dufresne, EI Corwin, NA Greenblatt, J Ashmore, DY Wang, AD Dinsmore, JC Cheng, XS Xie, JW Hutchinson, and DA Weitz, Phys Rev Lett, 91, (2003).

Soft Matter Physics at the University of Oregon