V. Mathai
C. Sun

Joint POF group publications (17)

2021

Kinematics and dynamics of freely rising spheroids at high Reynolds numbers[arΧiv]
J.B. Will, V. Mathai, S.G. Huisman, D. Lohse, C. Sun, and D.J. Krug
J. Fluid Mech. 912, A16 1–46 (2021)BibTeΧ
See also: Cover of the volume
Water entry of spheres into a rotating liquid[arΧiv]
L. Yi, S. Li, H. Jiang, D. Lohse, C. Sun, and V. Mathai
J. Fluid Mech. 912, R1 (2021)BibTeΧ

2020

Bubbly and Buoyant Particle–Laden Turbulent Flows[arΧiv]
V. Mathai, D. Lohse, and C. Sun
Annu. Rev. Condens. Matter Phys. 11, 529–559 (2020)BibTeΧ

2019

Statistics of rigid fibers in strongly sheared turbulence[arΧiv]
D. Bakhuis, V. Mathai, R.A. Verschoof, R. Ezeta, D. Lohse, S.G. Huisman, and C. Sun
Phys. Rev. Fluids 4, 072301 (2019)BibTeΧ
Final fate of a Leidenfrost droplet: Explosion or takeoff[Open Access]
S. Lyu, V. Mathai, Y. Wang, B. Sobac, P. Colinet, D. Lohse, and C. Sun
Sci. Adv. 5 (2019)BibTeΧ
See also: Science Daily
Mixing induced by a bubble swarm rising through incident turbulence[arΧiv]
E.O. Alméras, V. Mathai, C. Sun, and D. Lohse
Int. J. Multiphase Flow 114, 316 – 322 (2019)BibTeΧ

2018

Dispersion of Air Bubbles in Isotropic Turbulence[arΧiv]
V. Mathai, S.G. Huisman, C. Sun, D. Lohse, and M. Bourgoin
Phys. Rev. Lett. 121, 054501 (2018)BibTeΧ
Finite-sized rigid spheres in turbulent Taylor–Couette flow: effect on the overall drag[Open Access]
D. Bakhuis, R.A. Verschoof, V. Mathai, S.G. Huisman, D. Lohse, and C. Sun
J. Fluid Mech. 850, 246–261 (2018)BibTeΧ
Flutter to tumble transition of buoyant spheres triggered by rotational inertia changes[Open Access]
V. Mathai, X. Zhu, C. Sun, and D. Lohse
Nat. Commun. 9, 1792 (2018)BibTeΧ
Experimental investigation of heat transport in homogeneous bubbly flow[arΧiv]
B. Gvozdić, E.O. Alméras, V. Mathai, X. Zhu, D.P.M. van Gils, R. Verzicco, S.G. Huisman, C. Sun, and D. Lohse
J. Fluid Mech. 845, 226–244 (2018)BibTeΧ
Controlling Heat Transport and Flow Structures in Thermal Turbulence Using Ratchet Surfaces[arΧiv]
H. Jiang, X. Zhu, V. Mathai, R. Verzicco, D. Lohse, and C. Sun
Phys. Rev. Lett. 120, 044501 (2018)BibTeΧ

2017

Mass and Moment of Inertia Govern the Transition in the Dynamics and Wakes of Freely Rising and Falling Cylinders[arΧiv]
V. Mathai, X. Zhu, C. Sun, and D. Lohse
Phys. Rev. Lett. 119, 054501 (2017)BibTeΧ
See also: Phys.Org. August 17, 2017
Experimental investigation of the turbulence induced by a bubble swarm rising within incident turbulence[arΧiv]
E.O. Alméras, V. Mathai, D. Lohse, and C. Sun
J. Fluid Mech. 825, 1091–1112 (2017)BibTeΧ
Hemodynamic comparison of stent configurations used for aortoiliac occlusive disease
E. Groot Jebbink, V. Mathai, J.T. Boersen, C. Sun, C. Slump, P. Goverde, M. Versluis, and M. Reijnen
J. Vasc. Surg. 66, 251 – 260.e1 (2017)BibTeΧ

2016

Microbubbles and Microparticles are not Faithful Tracers of Turbulent Acceleration[arΧiv]
V. Mathai, E. Calzavarini, J. Brons, C. Sun, and D. Lohse
Phys. Rev. Lett. 117, 024501 (2016)BibTeΧ
Translational and rotational dynamics of a large buoyant sphere in turbulence[arΧiv]
V. Mathai, M.W.M. Neut, E.P. van der Poel, and C. Sun
Exp. Fluids 57, 1–10 (2016)BibTeΧ

2015

Wake-Driven Dynamics of Finite-Sized Buoyant Spheres in Turbulence[arΧiv]
V. Mathai, V.N. Nagendra Prakash, J. Brons, C. Sun, and D. Lohse
Phys. Rev. Lett. 115, 124501 (2015)BibTeΧ
See also: supplemental material