Sometimes, research takes you places you never expected, like conferences, workshops, or laboratories. And sometimes, it takes you on a detour to return the Ring back to Mordor.
This weekend, our fellowship had a mission of a different kind. Congratulations to the newlyweds!
@hija_unicaa Si jaja, viste como es la nostalgia. LP representa para muchos otra época y ese tiempo de juventud en los 2000. Creo que nadie quiere soltar lo que eso les significa, que por definición es irrecuperable. Ahora la banda está más viva que nunca, con otro sonido y otra perspectiva.
We just published a new paper! Using the angle between particles' velocity and separation, we can observe the three characteristic dispersion regimes, distinguish between isotropic and anisotropic flows and characterize how the topology of the flow affects the dispersion process!
🆕 New paper! @esp_bernardo, @ManuelNoseda, @PabloCobelli and @MininniPablo investigate how local flow geometry shapes particle pair dispersion, combining experiments in von Kármán flow with simulations of Taylor-Green and homogenous and isotropic turbulence.
On the area of fluid dynamics, Noseda explored conformal invariance in water-wave turbulence, linking critical phenomena to water waves, and Marchetti vortex crystal formation in rotating flows, revealing hexagonal patterns driven by self-organization in turbulent systems.
#Day1 of #DDaysLAC2024 has wrapped up! From neuron dynamics to quantum turbulence, today offered a deep dive into the wonders of nonlinear systems. Here's a quick recap:
🚨 Only 4 days left!
Join us at Dynamics Days Latin America and the Caribbean 2024, happening Dec 9-13 at @Exactas_UBA in Buenos Aires, Argentina! Stay tuned here for live updates and highlights. Don’t miss out! #DDaysLAC2024
For more information, check our website 👆
Meet Paola Rodríguez Imazio, a researcher with CONICET at Argentina’s National Weather Service (@SMN_Argentina)! She’s a key member of the PCAPS Steering Group and the WMO’s Global Cryosphere Watch (@CryosphereWatch), with expertise in Antarctic research and scientific campaigns.
One of our experimental setups is the Von Kármán swirling flow. It uses two rotating propellers to create axisymmetric turbulence. By introducing particles and capturing them with ultra-fast cameras, we can reveal the intricate dynamics within!
Experiments on gravity-capillary waves and stochastic partial differential equation theory link zero-height isolines and the critical 2D Ising model’s domain walls, revealing a novel connection between wave turbulence and critical systems https://t.co/I7Z6mAksKY
Our paper with @pablocobelli at @Fisica_UBA is out in @PhysRevLett ! Under the framework of Schramm-Löwner Evolutions (SLE), we found robust evidence of conformal invariance in an experimental setup for water-wave turbulence, which breaks down when increasing the forcing.