Resources

Publications

  • Author(s): Yanwen Sun, Gabriella Carini, Matthieu Chollet, Franz-Josef Decker, Mike Dunne, Paul Fuoss, Stephan O. Hruszkewycz, Thomas J. Lane, Kazutaka Nakahara, Silke Nelson, Aymeric Robert, Takahiro Sato, Sanghoon Song, G. Brian Stephenson, Mark Sutton, Tim B. Van Driel, Clemens Weninger, and Diling Zhu We report observations of nanosecond nonuniform colloidal dynamics in a free flowing liquid jet using ultrafast x-ray speckle visibility spectroscopy...
  • Author(s): Vera Melinda Galfi and Valerio Lucarini A new statistical mechanical model indicates how to improve predictive power for heatwaves and cold spells, and also explains the connection between two exceptional events which occurred in 2010, as well as the natural climate variability. [Phys. Rev. Lett. 127, 058701] Published Tue Jul 27, 2021
  • Author(s): Benoît Mahault and Hugues Chaté Working in two space dimensions, we show that the orientational order emerging from self-propelled polar particles aligning nematically is quasi-long-ranged beyond ${ℓ}_{r}$, the scale associated to induced velocity reversals, which is typically extremely large and often cannot even be measured. Bel... [Phys. Rev. Lett. 127, 048003] Published Fri Jul 23, 2021
  • Author(s): Rahul N. Chacko, François P. Landes, Giulio Biroli, Olivier Dauchot, Andrea J. Liu, and David R. Reichman As a cooling liquid nears the glass transition temperature, the dynamic facilitation of heterogeneous rearrangements becomes increasingly long-ranged and elastically-mediated. [Phys. Rev. Lett. 127, 048002] Published Thu Jul 22, 2021
  • Author(s): Tomer Markovich and Tom C. Lubensky In common fluids, viscosity is associated with dissipation. However, when time-reversal symmetry is broken a new type of nondissipative “viscosity” emerges. Recent theories and experiments on classical 2D systems with active spinning particles have heightened interest in “odd viscosity,” but a micro... [Phys. Rev. Lett. 127, 048001] Published Wed Jul 21, 2021
  • Author(s): Ilya Svetlizky and Yael Roichman We examine the response of a quasi-two-dimensional colloidal suspension to a localized circular driving induced by optical tweezers. This approach allows us to resolve over 3 orders of magnitude in the Péclet number (Pe) and provide a direct observation of a sharp spatial crossover from far- to near... [Phys. Rev. Lett. 127, 038003] Published Fri Jul 16, 2021
  • Author(s): Denis S. Goldobin, Matteo di Volo, and Alessandro Torcini Lorentzian distributions have been largely employed in statistical mechanics to obtain exact results for heterogeneous systems. Analytic continuation of these results is impossible even for slightly deformed Lorentzian distributions due to the divergence of all the moments (cumulants). We have solve... [Phys. Rev. Lett. 127, 038301] Published Tue Jul 13, 2021