• Refereed articles
• Theses
• Movies
• Covers

	D. Lohse
	V. Mathai
	Alméras - E.O. AlmérasBakhuis - D. BakhuisBourgoin - M. BourgoinBrons - J. BronsCalzavarini - E. CalzavariniColinet - P. ColinetEzeta - R. EzetaGils - D.P.M. van GilsGvozdić - B. GvozdićHuisman - S.G. HuismanJiang - H. JiangKrug - D.J. KrugLi - S. LiLyu - S. LyuNagendra Prakash - V.N. Nagendra PrakashSobac - B. SobacStevens - R.J.A.M. StevensSun - C. SunVerschoof - R.A. VerschoofVerzicco - R. VerziccoWang - Y. WangWill - J.B. WillYi - L. YiZhu - X. Zhu

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

Absence of Evidence for the Ultimate Regime in Two-Dimensional Rayleigh-Benard Convection Reply[arΧiv] X. Zhu, V. Mathai, R.J.A.M. Stevens, R. Verzicco, and D. Lohse Phys. Rev. Lett. 123, 259402 (2019)BibTeΧ

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

Transition to the Ultimate Regime in Two-Dimensional Rayleigh-Bénard Convection[arΧiv] X. Zhu, V. Mathai, R.J.A.M. Stevens, R. Verzicco, and D. Lohse Phys. Rev. Lett. 120, 144502 (2018)BibTeΧ See also: Cover of that journal

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

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

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