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Identifying Phases in Low-Speed Human Movement. physics.aps.org/articles/v17/s…. Interdisciplinary work on preschool social aggregation in motion from @ur_nature_culture, @miamiphysics, @lynnperry

Very cool work - having to say that I experienced some of these low speed humen to accelerate quite fast. ;)

An Actin Cushion Enables Dendritic Cells to Forge Paths While Maintaining a Coordinated Motion ! 🦠✨ Check out the latest story from Patrícia Reis-Rodrigues and colleagues from Sixt Lab highlighted here 👀👇 prelights.biologists.com/?post_type=hig… preLights #preprint

Super happy to see this heroic effort by Dimitri Fabrèges and Bernat Corominas out! Via a quantitative atlas of the developmental trajectories of dozens of embryos, we can see how robust shapes and fates arise from highly stochastic cellular processes! science.org/doi/10.1126/sc… 1/n

Our research on robot swarms that donate energy received one of the best poster awards at ANTS Conference !! OpenSwarm Roderich Gross Salah Talamali #ANTS2024

We are hiring. One PhD position (up to 4 years) and one postdoc position (up to 6 years) at the Experimental Soft Matter lab in Vienna! Hurry up 😎😉 somexlab.github.io/post/24-10-14-…

If you ever wished you could map the shear forces around a cell, check this out! 👇👀 The trick is to use nanorods which align due to shear causing different optical properties. You directly image the shear field with high spatial and temporal resolution! pubs.acs.org/doi/full/10.10…

Study from McGill & Radboud shows T cells move cooperatively in crowded environments by forming “cell trains,” helping them avoid jams. Neutrophils, however, slow down in similar conditions. biorxiv.org/content/10.110…

Considering an example of #violin player ensemble, moti fridman et al. show that by self-tuning tempo, amplitude, and coupling strength between players, their network achieves stability and synchronization #complexnetwork #GettingApplied nature.com/articles/s4146…

Hello folks, Iwill be moving on. Find me here: bsky.app/profile/mriedl…

1/3 For our final episode of the #PoLComic we highlight how complexity arises from emergent behavior. In biological systems, individual components interact to collectively to do things the parts on their own could never do! See the full version here: physics-of-life.tu-dresden.de/news-events/hi…

Our recent review summarizing findings on macrophage tissue infiltration in Drosophila (developmental, neuroinflammatory, adipose tissue infiltration, tumor ingression and vascular crossing) and how these relate to vertebrate findings. tinyurl.com/muydey32

Excited for our new preprint from @mehmetintheory - in collab with Michael Sixt - on optimal principles of self-organized chemotaxis in heterogeneous populations! See below for a thread!

🔬peeps! I am delighted to finally publish my code for controlling a spatial light modulator (SLM) to perform adaptive optics & to sculpt the vortex beams for STED & MINFLUX microscopy - complete w graphical user interface for easy use! github.com/wiebkejahr/slm… Short user manual🧵

Very happy for you Claire, looking forward to great science from an even greater scientist : )

📢 Preprint alert 📢 (1/6) Our work on 3D force inference for intestinal organoids is now on bioRxiv: biorxiv.org/content/10.110… Stunning collaboration between Oliver Drozdowski and Kim Boonekamp from the lab of Michael Boutros and with Ulrike Engel. A short🧵...

What an amazing explanation on the mechanics of watches! I am stunned, thanks for creating this!

Very happy and excited to share that this work is now published in Nature Physics ! rdcu.be/eigWi Faculty of Science | UNIGE Université de Genève Institut Polytechnique de Paris École polytechnique