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Scientists suspect they have discovered over 40 new species off the Coast of Argentina. The deep sea wonders include shimmering squids, pink lobsters and an interesting looking seastar.

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Passive scalars in 2D turbulence display highly intermittent statistical properties, but a hidden symmetry provides a powerful tool to explain their anomalous scaling. Recent simulations show this symmetry restores scale invariance. Read more at go.aps.org/41qxSf9

The roadmap highlights: • Theoretical frameworks linking information to viability • Experiments with synthetic cells, active matter & molecular communication • Origins & astrobiology: life as a transition to information-driven systems 🔗 journals.aps.org/prxlife/abstra…

In turbulent superfluid helium, quantum vortex lines form tangles with a characteristic mean intervortex spacing. Experiments show this spacing follows a Kolmogorov-like power law with Reynolds number, which can be explained by classical turbulence theory. go.aps.org/4oXfg0e

the most beautiful song ever

Moka Pot- Leah Gardner.

A particle oscillating in a density-stratified fluid offers an analogy to quantum-like wave-particle duality. Oscillations create internal waves that drive spontaneous horizontal motion, while boundary reflections create a confining Casimir-like potential. go.aps.org/3KkEENQ

Standard models usually treat cell membranes as infinitely thin, but finite thickness fundamentally alters their physics. Membrane bending induces shear flows, reversals, & pressure inversion, effects missed in 2D models but captured with finite thickness go.aps.org/3KDeJRr

Say good morning to our new medicine laureate Mary Brunkow! 🎉 This photo was taken by Brunkow's husband Ross Colquhoun at 4:30 in the morning, just after she had received the news.

In Seoul Skypark, South Korea 🇰🇷

Small nonuniformities in particle suspensions can alter interface patterns during stretching, producing wavy, finger-like shapes and dendritic fingers with side branches. Experiments and theory offer insights into these particle-mediated instabilities. go.aps.org/4qBNp6T

Calcifying planktonic organisms—coccolithophores, foraminifers, and shelled pteropods—are the linchpins of the marine carbonate cycle and key regulators of atmospheric carbon dioxide. In a new #ScienceReview, researchers analyze which of their functional traits make them so

New draft alert!🧡✨️🌼

seeking contributors for an edited volume

Ordered microswimmer flocks can lose stability due to swimming stresses creating chaotic, turbulent-like flows with topological defects. This state shifts to one where defects coexist with concentration waves, driven by swimmer concentration fluctuations. go.aps.org/49KRUWv

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