Author | Lightnews

Reposted by Amir Pahlavan

Harris Lab @fluiddanamics.bsky.social · Jun 20

In stratified fluids, small porous particles can settle faster than large ones. In linear stratification, the settling rate is set by the solute absorption rate. New predictions and experiments in our latest work out today in @pnas.org.

www.pnas.org/doi/10.1073/...

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Nigel Goldenfeld @nigelgoldenfeld.bsky.social · Jun 5

🧪⚛️

Squids are awesome!

Here's a very interesting example of how studying living systems reveals new phenomena and regimes of physics. In this case packing and order. Work from the group of @simonepigolotti.bsky.social at the @oistedu.bsky.social

phys.org/news/2025-06...

Squid study sparks interdisciplinary insight into the physics of growth

Often, physics can be used to make sense of the natural world, whether it's understanding gravitational effects on ocean tides or using powerful physics tools, like microscopes, to examine the inner w...

phys.org

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Hugh Ford @dictyostelium.bsky.social · May 21

New paper out in @pnas.org

We followed cells migrating along signalling gradients in 3D, and found they collectively behave as a living droplet - a self-propelling fluid that grows.

www.pnas.org/doi/10.1073/...

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Simone Pigolotti @simonepigolotti.bsky.social · May 26

Our paper on hyperdisordered packing is out! Chromatophore arrangement on squid skin reveals an exotic form of disordered packing, caused by the interplay of cell insertion and surface growth journals.aps.org/prx/abstract...

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Physics Magazine @physicsmagazine.bsky.social · May 27

Researchers have shown that the point at which ketchup, toothpaste, and other complex fluids undergo a solid-to-liquid transition can be predicted from the properties of the substance while it is still a solid. The insight could guide the control of this industrially important class of fluids.

Predicting When Ketchup Will Start Flowing

For a wide range of complex fluids, the transition from solid-like at rest to liquid-like when pushed can be predicted from properties of the at-rest state.

physics.aps.org

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Quanta Magazine @quantamagazine.bsky.social · May 17

www.quantamagazine.org/finding-beau...

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Matthias C. Rillig @mrillig.bsky.social · Mar 25

About the importance of writing and how to do it; nice, short article in Nature Biotechnology, and not just for graduate students.

rdcu.be/ee4Vt

An open letter to graduate students and other procrastinators: it’s time to write

Nature Biotechnology - An open letter to graduate students and other procrastinators: it’s time to write

rdcu.be

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Alban Sauret @albansauret.bsky.social · Mar 12

Excited to share our new paper in @pnas.org doi.org/10.1073/pnas...! Ice cubes often appear cloudy because, as water freezes, air bubbles get trapped and scatter light. But how does freezing rate affect the shape of the bubbles?

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Amir Pahlavan @apahlavan.bsky.social · Mar 5

Thanks Saverio! Last time I used Q was to quantify vortices in bacterial suspensions in a work with David Saintillan almost 15 years ago!!

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Amir Pahlavan @apahlavan.bsky.social · Mar 4

Our work on solute-mediated colloidal vortices and focusing is now out in PRL. doi.org/10.1103/Phys...

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Kirsty Wan @micromotility.bsky.social · Feb 22

We (Marco Mazza, @jcammann.bsky.social, Hannah Laeverenz-Schlogelhofer and I) just posted a review on the physics of biological filaments across scales, enjoy! doi.org/10.48550/arX...

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ptbrun.bsky.social @ptbrun.bsky.social · Feb 22

Advertisement for an advanced course in Udine, Italy 🇮🇹 this summer ☀️. Learn about mechanics for the fabrication and programming of soft robots 🦑. cism.it/en/activities/…
organized along with @joelmarthelot.bsky.social

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Nicole Sharp @nicolesharp.com · Jan 24

By volume, Lake Baikal is the world's largest lake, holding over 20% of the planet's fresh water. It's also a major carbon sink, holding large amounts of methane. That's the gas trapped in the frozen bubbles seen here.
fyfluiddynamics.com/?p=22627

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Mattia Serra @mattiaserra.bsky.social · Jan 24

📣Check out our work led by @alex-plum.bsky.social ! We developed a mathematical framework for morphogen patterning in dynamic tissues, revealing key insights into how morphogenesis mediates cell-cell communication, morphogen compartmentalization and fate coordination. biorxiv.org/content/10.1...

Morphogenetic movements reshape cell-cell interaction ranges, quantified as Embryological Light Cones (ELCs). These ELCs are highly different from the corresponding static tissue patterning ELCs.

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Alvaro Marin @alvaromarin.bsky.social · Jan 24

Our Annual Review of Fluid Mechanics is now accessible for free! find out how to make a jellyfish smoothy 🪼, or how to cross a river without a bridge 🪵... thanks @annualreviews.bsky.social for make this volume open!

www.annualreviews.org/content/jour...

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Lilian Hsiao @lilianhsiao.bsky.social · Jan 15

Our paper on using small molecules that self-assemble on polymer surfaces to engineer wearable energy harvesters is out today in Science Advances! Learn about how scaling analysis and fundamental soft matter can impact technology. www.science.org/doi/10.1126/...

Compressing slippery surface-assembled amphiphiles for tunable haptic energy harvesters

Molecules that self-organize into slippery planes are used to engineer functional and comfortable energy harvesters.

www.science.org

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Mattia Serra @mattiaserra.bsky.social · Jan 16

📣 Excited to receive the 💥 NSF CAREER 💥 Award. Our group is looking for PhD students and postdocs interested in the Nonlinear Dynamics and the Physics of Living Systems, with support from NSF, HFSP, and other sources. We’d appreciate your help in spreading the word! @ucsdphysci.bsky.social

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Amir Pahlavan @apahlavan.bsky.social · Jan 13

The abstract submission deadline is today (Jan 13th)! So far, we have contributions on topics ranging from microvasculature, cells and tissues to biofilms! Looking forward to a great session on "Living Porous Media"! lnkd.in/eafFBRE9

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KudrolliLab @kudrollilab.bsky.social · Jan 7

New preprint out on self-propelling melting ice blocks arxiv.org/abs/2412.16010. This work was led by Michael Berhanu and it was a pleasure to be a part off along with AmitDawadi at ClarkUniversity, and Martin Chaigne, and Jerome Jovet at University Paris Cite.

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Amir Pahlavan @apahlavan.bsky.social · Jan 3

The abstract submission deadline is in 3 days! Monday, Jan 6th! Looking forward to a great session on "Living Porous Media"! events.interpore.org/event/56/

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Markus Deserno @markusdeserno.bsky.social · Dec 24

Here’s a Christmas present for y’all: a new physics post! I’ve done these things on “the other side”—let’s see how many people are interested on 🦋!

I’ll be talking about a famous principle in classical mechanics: that of “least action.” And I’ll tell you why it’s a misnomer!

Buckle up!

1/26

Image source: https://www.empireonline.com/movies/features/last-action-hero

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Amir Pahlavan @apahlavan.bsky.social · Dec 21

We invite you to submit an abstract to the Interpore 2025 Minisymposium Session on "Biophysics of Living Porous Media" to be held in Albuquerque, New Mexico, May 19-23 2025. The abstract submission deadline is Jan 6th midnight PST (events.interpore.org/event/56/pag...).

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Joel Marthelot @joelmarthelot.bsky.social · Dec 11

Fresh off the press, our work on wing deployment in Drosophila 🪰:
www.nature.com/articles/s41...
Work by: Simon Hadjaje, Ignacio Andrade-Silva, Marie-Julie Dalbe and Raphaël Clément

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arratiapaulo.bsky.social @arratiapaulo.bsky.social · Dec 5

Bacterial rheotaxis is ENHANCED in non-Newtonian fluids! This work is in collaboration with Arnold Mathijssen and Albane Thery. Read more about our experiments and simulations in our new PNAS manuscript at pnas.org/doi/10.1073/...
@sorheology.bsky.social @pnas.org

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Amir Pahlavan @apahlavan.bsky.social · Dec 5

Thanks, Alban!

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