| Self-propelled particle in an external potential: Existence of an effective temperature G Szamel Physical Review E 90 (1), 012111, 2014 | 279 | 2014 |
| Nature of the breakdown in the Stokes-Einstein relationship in a hard sphere fluid SK Kumar, G Szamel, JF Douglas The Journal of chemical physics 124 (21), 2006 | 202 | 2006 |
| Low-frequency vibrational modes of stable glasses L Wang, A Ninarello, P Guan, L Berthier, G Szamel, E Flenner Nature communications 10 (1), 26, 2019 | 185 | 2019 |
| Fundamental differences between glassy dynamics in two and three dimensions E Flenner, G Szamel Nature communications 6 (1), 7392, 2015 | 170 | 2015 |
| Mode-coupling theory of the glass transition in colloidal systems G Szamel, H Löwen Physical Review A 44 (12), 8215, 1991 | 165 | 1991 |
| Relaxation in a glassy binary mixture: Comparison of the mode-coupling theory to a Brownian dynamics simulation E Flenner, G Szamel Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 72 (3 …, 2005 | 161 | 2005 |
| Glassy dynamics of athermal self-propelled particles: Computer simulations and a nonequilibrium microscopic theory G Szamel, E Flenner, L Berthier Physical Review E 91 (6), 062304, 2015 | 145 | 2015 |
| Computer simulation study of the structure and dynamics of ring polymers S Brown, G Szamel The Journal of chemical physics 109 (14), 6184-6192, 1998 | 135 | 1998 |
| Glassy dynamics in dense systems of active particles L Berthier, E Flenner, G Szamel The Journal of chemical physics 150 (20), 2019 | 133 | 2019 |
| Relaxation in a glassy binary mixture: Mode-coupling-like power laws, dynamic heterogeneity, and a new non-Gaussian parameter E Flenner, G Szamel Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 72 (1 …, 2005 | 117 | 2005 |
| Polymer‐mode‐coupling theory of the slow dynamics of entangled macromolecular fluids KS Schweizer, M Fuchs, G Szamel, M Guenza, H Tang Macromolecular theory and simulations 6 (6), 1037-1117, 1997 | 115 | 1997 |
| Universal features of dynamic heterogeneity in supercooled liquids E Flenner, H Staley, G Szamel Physical review letters 112 (9), 097801, 2014 | 111 | 2014 |
| The nonequilibrium glassy dynamics of self-propelled particles E Flenner, G Szamel, L Berthier Soft matter 12 (34), 7136-7149, 2016 | 110 | 2016 |
| Dynamic Heterogeneity in a Glass Forming Fluid: Susceptibility,<? format?> Structure Factor, and Correlation Length E Flenner, G Szamel Physical review letters 105 (21), 217801, 2010 | 104 | 2010 |
| Structure and dynamics of ring polymers S Brown, G Szamel The Journal of chemical physics 108 (12), 4705-4708, 1998 | 104 | 1998 |
| Colloidal glass transition: Beyond mode-coupling theory G Szamel Physical review letters 90 (22), 228301, 2003 | 103 | 2003 |
| Increasing the density melts ultrasoft colloidal glasses L Berthier, AJ Moreno, G Szamel Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 82 (6 …, 2010 | 95 | 2010 |
| Independence of the relaxation of a supercooled fluid from its microscopic dynamics: Need for yet another extension of the mode-coupling theory G Szamel, E Flenner Europhysics Letters 67 (5), 779, 2004 | 95 | 2004 |
| Analysis of a growing dynamic length scale in a glass-forming binary hard-sphere mixture E Flenner, M Zhang, G Szamel Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 83 (5 …, 2011 | 88 | 2011 |
| How active forces influence nonequilibrium glass transitions L Berthier, E Flenner, G Szamel New Journal of Physics 19 (12), 125006, 2017 | 85 | 2017 |
