Google scholar profile

Papers

  1. Y. Jiang, R. Seto, Competing Lengthscales in Colloidal Gelation with Non-Sticky Particles, arXiv:2211.12978
  2. A. N. Kato, Y. Jiang, W. Chen, R. Seto, T. Li, How Surface Roughness Affects the Interparticle Interactions at a Liquid Interface, arXiv:2209.02922
  3. Z. Zhao, M. Yang, S. Komura, R. Seto, Odd Viscosity in Chiral Passive Suspensions, Front. Phys., 2022.(arXiv:2205.11881)
  4. C. Ness, R. Seto, R. Mari, The physics of dense suspensions, Annu. Rev. Condens. Matter Phys., 13(1):97–117. (arXiv:2105.04162)
  5. Z. Zhao, B. Wang, S. Komura, M. Yang, F. Ye, R. Seto, Emergent Stripes of Active Rotors in Shear Flows, Phys. Rev. Research, 3:043229, 2021.
  6. G. G. Giusteri, R. Seto, Shear jamming and fragility of suspensions in a continuum model with elastic constraints, Phys. Rev. Lett., 127:138001, 2021. (arXiv:2102.01923)
  7. J. T. Jenkins, R. Seto, L. L. Ragione, Predictions of microstructure and stress in two-dimensional pure shearing of a dense viscous suspension, J. Fluid Mech., 912:A27, 2021. (arXiv:2006.05590)
  8. A. Singh, C. Ness, R. Seto, J. J. de Pablo, H. M. Jaeger, Shear thickening and jamming of dense suspensions: the roll of friction, Phys. Rev. Lett. 124, 248005, 2020. (arXiv:2002.10996)
  9. R. Mari and R. Seto, Force transmission and the order parameter of shear thickening, Soft Matter, 15:6650–6659, 2019. (arXiv:1906.02103 )
  10. R. Seto, A. Singh, B. Chakraborty, M. M. Denn, and J. F. Morris, Shear jamming and fragility in dense suspensions, Granul. Matter, 21(3):82, 2019. In Memoriam of Robert P. Behringer
  11. K. Nagasawa, T. Suzuki, R. Seto, M. Okada, and Y. Yue. Mixing sauces: A viscosity blending model for shear thinning fluids. ACM Trans. Graph., 38(4):95:1–17, 2019. SIGGRAPH2019
  12. R. Seto and G. G. Giusteri. Normal stress differences in dense suspensions. J. Fluid Mech., 857:200–215, 2018.
  13. G. G. Giusteri and R. Seto. A theoretical framework for steady-state rheometry in generic flow conditions. J. Rheol., 62(3):713–723, 2018. PDF file
  14. R. Seto, G. G. Giusteri, and A. Martiniello, Microstructure and thickening of dense suspensions under extensional and shear flows. J. Fluid Mech., 825, R3, 2017. Featured in a commentary article “`Shear thickening’ in non-shear flows: the effect of microstructure” by Prof. Helen J. Wilson to appear in Focus on Fluids of the Journal of Fluid Mechanics
  15. A. T. Pham, R. Seto, J. Schönke, D. Y. Joh, A. Chilkoti, E. Fried, and B. B. Yellen. Crystallization kinetics of binary colloidal monolayers, Soft Matter, 12:7735–7746, 2016.
  16. R. Mari, R. Seto, J. F. Morris, and M. M. Denn. Discontinuous shear thickening in Brownian suspensions by dynamic simulation. Proc. Natl. Acad. Sci. USA, 112(50):15326–15330, 2015.
  17. R. Mari, R. Seto, J. F. Morris, and M. M. Denn. Nonmonotonic flow curves of shear thickening suspensions. Phys. Rev. E, 91:052302, 2015.
  18. R. Seto, R. Mari, J. F. Morris, and M. M. Denn. The essential role of frictional contact in shear thickening, Japanese J. Multiphase Flow, Vol. 28, No. 3, 296–303, 2014.
  19. R. Mari, R. Seto, J. F. Morris, and M. M. Denn. Shear thickening, frictionless and frictional rheologies. J. Rheol., 58(6):1693–1724, 2014. Received the 2015 Society of Rheology Publication Award
  20. R. Seto, R. Mari, J. F. Morris, and M. M. Denn. Discontinuous shear thickening of frictional hard-sphere suspensions. Phys. Rev. Lett., 111:218301, 2013. 
Featured as Editors’ Suggestion and highlighted in Physics Viewpoint “Friction’s Role in Shear Thickening”
  21. R. Seto, R. Botet, M. Meireles, G. K. Auernhammer, and B. Cabane. Compressive consolidation of strongly aggregated particle gels. J. Rheol., 57(5):1347–1366, 2013.
  22. E. Schlauch, M. Ernst, R. Seto, H. Briesen, M. Sommerfeld, and M. Behr. Comparison of three simulation methods for colloidal aggregates in stokes flow: Finite Elements, Lattice Boltzmann and Stokesian Dynamics. Computers & Fluids, 86:199–209, 2013.
  23. J. Wenzl, R. Seto, M. Roth, H.-J. Butt, and G. K. Auernhammer, Measurement of rotation of cohesive spherical granulates, Granul. Matter, 15(4):391–400, 2013.
  24. R. Seto, R. Botet, G. K. Auernhammer, and H. Briesen, Restructuring of colloidal aggregates in shear flow: Coupling interparticle contact models with Stokesian Dynamics, Eur. Phys. J. E, 35: 128, 2012.
  25. R. Seto, R. Botet, and H. Briesen, Viscosity of rigid and breakable aggregate suspensions —Stokesian dynamics for rigid aggregates, Prog. Colloid Polym. Sci., Vol. 139, 2012.
  26. R. Seto, R. Botet, and H. Briesen. Hydrodynamic stress on small colloidal aggregates in shear flow using stokesian dynamics. Phys. Rev. E, 84:041405, 2011.
  27. T. Hyouguchi, R. Seto, and S. Adachi, Overlooked Degree of Freedom in Steepest Descent Method — Steepest Descent Method Corresponding to Divergence-Free WKB Method, Prog. Theor. Phys., 122, 1347–1376, 2009.
  28. T. Hyouguchi, R. Seto, and S. Adachi, Overlooked branch cut in steepest descent method — Switching line and atomic domain, Prog. of Theor. Phys., 122, 1311–1346, 2009.
  29. R. Botet, B. Cabane, M. Clifton, M. Meireles, and R. Seto, How a Colloidal Paste Flows — Scaling Behaviors in Dispersions of Aggregated Particles under Mechanical Stress—, 5th International Workshop on Complex Systems, AIP Conf. Proc. 982, 320–325, 2008.
  30. H. Kuratsuji, R. Botet, and R. Seto, Electromagnetic Gyration: Hamiltonian Dynamics of the Stokes Parameters, Prog. Theor. Phys, 117, 195, 2007.
  31. R. Botet, H. Kuratsuji, and R. Seto, Novel Aspects of Evolution of the Stokes Parameters for an Electromagnetic Wave in Anisotropic Media, Prog. Theor. Phys, 116, 285–294, 2006.
  32. R. Seto, R. Botet, and H. Kuratsuji, Excess conductivity of high-Tc superconductor thin films: Role of smooth doping disorder, Phys. Rev. B 73, 012508, 2006.
  33. R. Seto, H. Kuratsuji, and R. Botet, Nonlinear oscillation of the Stokes parameters in birefringent media. Topology in ordered phases: Proceedings of the first international symposium, Sapporo, Japan, 327–331, 2005.
  34. R. Seto, H. Kuratsuji, and R. Botet, Resonant oscillations of the Stokes parameters in non-linear twisted birefringent media, Europhys. Letters. Vol.71, No. 5, 751–756, 2005.
  35. T. Hyouguchi, R. Seto, M. Ueda, and S. Adachi, Divergence-free WKB method, Ann. Phys., 312, 177–267, 2004.

Book chapter

  1. V. Bürger, E. Schlauch, V. Becker, R. Seto, M. Behr, and H. Briesen. Simulating the restructuring of colloidal aggregates. M. Kind, W. Peukert, H. Rehage, and H. P. Schuchmann, editors, Colloid Process Engineering, 145–173. Springer International Publishing, 2015.