Greg A Voth and Alfredo Soldati, “Anisotropic Particles in Turbulence”, Annual Review of Fluid Mechanics, 49:249-276 (2017).  [pdf]

Stefan Kramel, Saskia Tympel, Federico Toschi, Greg A. Voth, “Preferential rotation of chiral dipoles in isotropic turbulence”. Physical Review Letters 117, 154501 (2016). [pdf]

Brendan Cole, Guy Geyer Marcus, Shima Parsa, Stefan Kramel, Rui Ni, and Greg A Voth, “Methods for Measuring the Orientation and Rotation Rate of 3D-printed Particles in Turbulence.” Journal of Visualized Experiments, 112, e53599 (2016) [link to video publication] 

Rui Ni, Stefan Kramel, Nicholas T. Ouellette and Greg A. Voth, “Measurements of the coupling between the tumbling of rods and the velocity gradient tensor in turbulence.” Journal of Fluid Mechanics 766, 202225 (2015). [pdf]

M. Byron, J. Einarsson, K. Gustavsson, G. Voth, B. Mehlig and E. Variano, “Shape-dependence of particle rotation in isotropic turbulence.” Physics of Fluids 27, 035101 (2015). [pdf]

Rui Ni, Greg A. Voth and Nicholas T. Ouellette, “Extracting turbulent spectral transfer from under-resolved velocity fields”, Physics of Fluids 26, 105107 (2014). [pdf]

Guy G. Marcus, Shima Parsa, Stefan Kramel, Rui Ni, and Greg A. Voth, “Measurements of the solid-body rotation of anisotropic particles in 3D turbulence”,  New Journal of Physics, 16, 102001 (2014). [pdf]

Rui Ni, Nicholas T. Ouellette and Greg A. Voth, “Alignment of vorticity and rods with Lagrangian fluid stretching in turbulence”; Journal of Fluid Mechanics, 743, R3 (2014). [pdf]

Shima Parsa, and Greg A. Voth, “Inertial Range Scaling in Rotations of Long Rods in Turbulence”; Physical Review Letters, 112, 024501 (2014). [pdf]

Samuel B. Kachuck, and Greg A. Voth, “Simulations of granular gravitational collapse” Physical Review E, 88, 062202 (2013). [pdf]

Chen-Chi Chien, Daniel B. Blum, and Greg A. Voth, “Effects of Fluctuating Energy Input on the Small Scales in Turbulence”  Journal of Fluid Mechanics, 737, 527 (2013). [pdf]

Shima Parsa, Enrico Calzavarini, Federico Toschi, and Greg A. Voth, “Rotation Rate of Rods in Turbulent Fluid Flow” Physical Review Letters, 109, 134501 (2012). [pdf]

Daniel B. Blum, Gregory P. Bewley, Eberhard Bodenschatz, Mathieu Gibert, Armann Gylfason, Laurent Mydlarski, Greg A. Voth, Haitao Xu, P. K. Yeung, “Signatures of non-universal large scales in conditional structure functions from various turbulent flows”  New Journal of Physics, 13, 113020 (2011). [pdf]

Shima Parsa, Jeffrey S. Guasto, Monica Kishore, Nicholas T. Ouellette, J. P. Gollub, and Greg A. Voth, “Rotation and alignment of rods in two-dimensional chaotic flow”  Physics of Fluids, 23, 043302 (2011). [pdf]

Daniel B. Blum, Surendra B. Kunwar, James Johnson, and Greg A. Voth, “Effects of nonuniversal large scales on conditional structure functions in turbulence”  Physics of Fluids, 22, 015107 (2010). [pdf]

Rachel D. Brown, Z. Warhaft, and Greg A. Voth, “Acceleration Statistics of Neutrally Buoyant Spherical Particles in Intense Turbulence.” Physical Review Letters, 103, 194501 (2009).[pdf]

John A. Perez, Samuel B. Kachuck and Greg A. Voth, “Visualization of Collisional Substructure in Granular Shock Waves.” Physical Review E, 78, 041309 (2008). [pdf]

Reuben Son, John A. Perez, and Greg A Voth, “Experimental measurements of the collapse of a 2D granular gas under gravity.” Physical Review E, 78, 041302 (2008). [pdf]

Florian Otto, Emmalee Riegler and Greg A. Voth, “Measurements of the steady streaming flow around oscillating spheres using 3D particle tracking velocimetry”  Physics of Fluids, 20, 093304 (2008)[pdf]

M. J. Twardos, P.  Arratia, M. Rivera, G. A. Voth, J. P. Gollub, and R. E. Ecke. “Stretching fields and mixing near the transition to non-periodic two-dimensional flow.” Physical Review E, 77, 056315 (2008). [pdf]

King-Yeung Chan, Dominik Stich, and Greg A. Voth,  “Real-time image compression for high-speed particle tracking.” Review of Scientific Instruments, 78, 023702007 (2007). [pdf]

Douglas Rubin, Naomi Goldenson, and Greg A. Voth, “Failure and strengthening of granular slopes under horizontal vibration.” Physical Review E, 74, 051307 (2006). [pdf]

P. E. Arratia, Greg A. Voth, and J.P. Gollub, “Stretching and mixing of non-Newtonian fluids in time-periodic flows.” Physics of Fluids, 17, 053102 (2005).  [pdf]

Greg A. Voth, Tim Saint, Greg Dobler, and J.P. Gollub, “Mixing rates and symmetry breaking in 2D chaotic flow.” Physics of Fluids, 15, 2560 (2003). [pdf]

J.C. Tsai, Greg A. Voth, and J.P. Gollub, “Internal granular dynamics: Shear induced crystallization and compaction steps.” Physical Review Letters, 91, 064301 (2003). [pdf]

Greg A. Voth, B. Bigger, M.R. Buckley, W. Losert, M.P. Brenner, H.A. Stone, and J.P. Gollub, “Ordered clusters and dynamical states of particles in a vibrated fluid.”  Physical Review Letters, 88, 234301 (2002). [pdf]

Greg A. Voth, G. Haller, and J.P. Gollub,  “Experimental measurements of stretching fields in fluid mixing.”  Physical Review Letters, 88, 254501 (2002).  [pdf]

Greg A. Voth, Arthur La Porta, Alice Crawford, Eberhard Bodenschatz, and Jim Alexander, “Measurement of particle accelerations in fully developed turbulence.”  Journal of Fluid Mechanics, 469, 121 (2002).  [pdf]

J. C. Tsai, W. Losert, G. Voth, and J.P. Gollub, “Two dimensional granular Poiseuille flow on an incline:  multiple dynamical regimes.”  Physical Review E, 65, 011306 (2001).  [pdf]

Greg A. Voth, Arthur La Porta, Alice Crawford, Eberhard Bodenschatz, Curt Ward, and Jim Alexander, “A silicon strip detector system for high resolution particle tracking in turbulence.” Review of Scientific Instruments, 72, 4348 (2001).  [pdf]

A. La Porta, Greg A. Voth, Alice M. Crawford, Jim Alexander and Eberhard Bodenschatz, “Fluid particle accelerations in fully developed turbulence.” Nature, 409, 1017-1019 (2001).  [pdf]

 A. La Porta, Greg A. Voth, F. Moisy and Eberhard Bodenschatz, “Using cavitation to measure statistics of low-pressure events in large-Reynolds-number turbulence.”  Physics of Fluids 12, 1485 (2000).  [pdf]

Greg A. Voth, K. Satyanaryan, Eberhard Bodenschatz, “Lagrangian acceleration measurements at large Reynolds numbers.” Physics of Fluids, 10, 2268  (1998). [pdf]