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Rahil Valani
@RahilValani
Leverhulme-Peierls fellow at @OxfordPhysics. Fascinated
by active matter 🦠, dynamical systems 🪐 & fluid dynamics 💦.
Oxford, England
Joined June 2019
878 Following
489 Followers
187 Posts
Pinned Tweet
In a recent work, we show that a suspension of (non-interacting) deformable, elongated particles in oscillatory shear flow can develop nematic order via a phase synchronization mechanism. The work is published in @PhysRevLett :
https://t.co/WevsS1DfUs
@OxfordPhysics
Active Soft-Impact Oscillator: Dynamics of a Walking Droplet in a Non-Smooth Potential
Titir Mukherjee, Rahil N Valani, Soumitro Banerjee
https://t.co/ZlQbRE5VkI [𝚗𝚕𝚒𝚗.𝙲𝙳 𝚙𝚑𝚢𝚜𝚒𝚌𝚜.𝚏𝚕𝚞-𝚍𝚢𝚗]
![SciencePapers's tweet photo. Active Soft-Impact Oscillator: Dynamics of a Walking Droplet in a Non-Smooth Potential
Titir Mukherjee, Rahil N Valani, Soumitro Banerjee
https://t.co/ZlQbRE5VkI [𝚗𝚕𝚒𝚗.𝙲𝙳 𝚙𝚑𝚢𝚜𝚒𝚌𝚜.𝚏𝚕𝚞-𝚍𝚢𝚗] https://t.co/ThVocOeMQL](https://pbs.twimg.com/media/HAc7g-ZX0AA81MG.png)
Wave-mediated interactions can drive rich collective dynamics in active particle clusters. We study walking droplet clusters that form stable bound states with collective excitation modes and show similarities with nuclear physics.
Paper: https://t.co/jeuI6Ed7NH
In a joint work led by Brendan Harding, and with Yvonne Stokes, we develop a unified Hamiltonian framework for how active particles move in channel flows. Particles undergo complex trajectories but remain confined within predictable regions. @PhysRevE
https://t.co/WGO8LMrcqD
Who to follow
Babak Vajdi Hokmabad
@BabakVH
Postdoc in Schroeder Lab and @TheSquishyLab | Princeton University
Active soft matter, Fluid mechanics, Biophysics.
https://t.co/UE45lPwMGi
Paulo E. Arratia
@ArratiaPaulo
researcher, interested in fluid dynamics and complex fluids (dead & alive). Views are my own -- if you do not like them, I have others.
Gwynn Elfring
@gelfring
Professor @ubcmech, @ubcmath University of British Columbia 🇨🇦🇳🇱🇲🇽 fluid mechanics, soft (active) matter, complex fluids
Quincke rotation, a particle spinning in an electric field, exhibits complex dynamics and follows the Lorenz equations. In a recent work, we show that fluid memory reshapes this chaos and delays its onset.
@AdityaSKhair1 @PhysRevFluids
https://t.co/6M5ZfCu7sI
More on collective behavior: Our new Annual Review of Biophysics piece - with the stellar Danielle Chase - explores how animals sense, share information, and make group decisions. In honeybees and beyond 🐝
https://t.co/UcuG35gUu5
New preprint - We show a Hamiltonian formulation for the motion of a simple active particle interacting with unidirectional steady flow. This provides insights into organization of the active particle trajectories as defined by a potential well.
https://t.co/jRR3VLQ1mX
Postdoctoral position open in Bacterial-Algal Symbiosis! This interdisciplinary role will involve experimental and theoretical research using microfluidics, microscopy and modelling. Applications close May 13 (Aust. time). Please RT!
@SciMelb @UniMelb
https://t.co/t1hTY6Sb27
An active particle inspired from walking droplets can unpredictably cross a potential barrier. Using a minimal model, we show that the unpredictability lies in non-equilibrium features of a perturbed Lorenz system @PhysRevE
https://t.co/zAseBaoxG9
Attending the @APSphysics Global Physics Summit in Anaheim #APSSummit25. If you would like to learn about our recent work on active particles/mechanobiology, or just want to say hi, then I am presenting at the below sessions:
https://t.co/79Od25QRVI
https://t.co/9Rr6uDnY7L
Using a simple model of a walking droplet in a harmonic potential, we show countably infinite quantized orbits, as opposed to a continous spectrum that one gets for a classical simple harmonic oscillator. See our open access paper below @PhysRevE :
https://t.co/9F5ut69XlB
@ZacconeAlessio @PhysRevE Thanks for sharing, this looks very interesting! I will have a proper read of your paper.
Adding a small bias force to a Lorenz model for a memory-driven active particle leads to both giant negative and positive mobility simultaneously, suggesting a mechanism by which anomalous transport emerges.
Read the paper: https://t.co/8QOebnGa2K
Adding a small bias force to a Lorenz model for a memory-driven active particle leads to both giant negative and positive mobility simultaneously, suggesting a mechanism by which anomalous transport emerges.
Read the paper: https://t.co/8QOebnGa2K
Our below work in now published in @PhysRevE! We show that asymmetric limit cycles within Lorenz chaos can induce motion for an active particle in a direction opposite to an applied force.
#chaos #activematter #walkingdroplet
https://t.co/D0CN6jDz9K
Non-equilibrium systems can appear to contradict Newton's 2nd law by responding with persistant motion in the direction opposite to an applied force. We find a dynamical mechanism for this behaviour rooted in asymmetric limit cycles within Lorenz chaos.
https://t.co/5Jgcz3i41Y
Congratulations to Xinyi for the fist paper from her PhD. This work, together with @PrakashLab, is published in @RSocPublishing today, and examines individual and collective behaviour of magnetotactic bacteria in an oxygen gradient. @SciMelb @MelbMathBio
https://t.co/2APS8J9EyW
#ICYMI: In wave-particle duality, electrons can become trapped in disordered environments. Now, researchers show that a similar effect can be seen in droplets on a vibrating fluid surface – results that could inform research on #ActiveMatter systems.
🔗 https://t.co/6WYADUsraO
We are advertising a postdoc position at @UniofAdelaide to work on mathematical modelling of inertial microfluidic technologies. If this sounds interesting please see below link or if you know anyone who might be interested please help spread the word
Great postdoc opportunity working with my awesome colleague Yvonne Stokes! https://t.co/r7PvJtm5Sp
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