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Category: physics

Explosive evaporation unlocks new possibilities in 3D printing and chemical analysis

Water droplets might seem simple at first. But when nearing evaporation, a desperate power struggle of competing physical forces can emerge, with explosive effects. In a Proceedings of the National Academy of Sciences publication, researchers have taken a closer look at the physics of charged water droplets on frictionless surfaces, observing spontaneous jets of microdroplet emissions. Their insights may open new opportunities in nanoscale fabrication and electrospray ionization.

Professor Dan Daniel, head of the Droplet and Soft Matter Unit at the Okinawa Institute of Science and Technology (OIST) says, “From raindrops to spray coatings, mass spectrometry to microfluidics, sneezes to spacecraft plumes, charged droplets can show up in a surprising wealth of settings. Our observations enable new physical understanding of evaporating charged droplets, with a range of potential industrial applications.”

How do you study something you can never step outside of?

Studying the thing you can never step outside of and look back at is the fundamental problem facing every cosmologist who has ever looked up at the night sky. The Universe is not a laboratory you can peer into from above, it’s the thing you are already inside. The only way to truly test your ideas about how it works is to build a copy of it, run the clock forward from the Big Bang, and see if what emerges matches what your telescopes are actually telling you.

That is exactly what the FLAMINGO project has been doing. And this week, its creators made the results available to the entire world.

An international team of astrophysicists, led by researchers at Leiden University in the Netherlands, has released one of the largest cosmological simulation datasets ever produced. The archive contains more than 2.5 petabytes of data (roughly equivalent to half a million high definition films) and is free to access for researchers anywhere on the planet.

A new way to understand the evolution of spacetime dynamics

The concept of spacetime, first described in Einstein’s theory of general relativity, has since been widely studied by many physicists worldwide. Spacetime is described mathematically as a four-dimensional (4D) continuum in which physical events occur, which merges three-dimensional (3D) space, with one-dimensional (1D) time.

This 4D continuum is known to continuously evolve following complex and intricate patterns that are governed by Einstein’s field equations; mathematical equations that describe how matter and energy shape spacetime. While various past theoretical studies explored the evolution of spacetime, identifying patterns that persist during its evolution has proved challenging so far.

Researchers at Adolfo Ibáñez University in Chile and Columbia University set out to explore the evolution of spacetime using ideas rooted in nonlinear electrodynamics, an area of physics that studies the behavior of electric and magnetic fields in complex materials.

The Fermi Paradox Just Got Worse

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The Fermi Paradox is the question of why we haven’t been contacted by any extraterrestrial species. In a recent paper, astrophysicists analyzed the paradox by instead examining how civilizations with the ability to send signals through space might develop. Unfortunately for us, their findings are quite bleak – but let’s take a look anyway.

Paper: https://arxiv.org/abs/2602.

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This video discusses the Fermi Paradox, questioning the absence of extraterrestrial life despite the vastness of the cosmos. The Milky Way has had billions of years to produce civilizations, so where is everybody? A new paper’s analysis suggests a concerning conclusion regarding this silence, prompting us to consider what the lack of alien life tells us about our universe. 🔭

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A 4km Drive That Changed Physics: The First Antimatter Transport

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Hello and welcome! My name is Anton and in this video, we will talk about the first ever antimatter transportation using a truck
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Is Our Model of Dark Energy WRONG? | New 4.2σ Results

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The biggest news in cosmology in recent years is that the mysterious universe-accelerating entity we call dark energy may be fading away. The evidence for this is now strong enough that enormous effort is going into confirming this result. So what’s it going to take, and when are we going to know?

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What If Time Isn’t Linear? Exploring the Universe’s Most Baffling Concept

You are used to thinking of time as a straight line: past behind you, present under your feet, and future stretching endlessly ahead. Clocks tick, calendars flip, and your life seems to march forward in one clean direction. But when you start looking closely at what physics and philosophy actually say about time, that simple picture starts to wobble in surprising and sometimes unsettling ways.

Once you let go of the idea that time must be linear, a whole new universe of possibilities opens up. You begin to wonder whether the past is really gone, whether the future might already exist, and whether your sense of “now” is just a useful illusion. In this article, you’ll explore some of the strangest, most well-supported ideas about time from modern science, and you’ll see how they quietly challenge your everyday experience without requiring you to believe in magic.

If you pause and ask yourself what “now” actually is, you probably feel like the answer is obvious: it’s the present moment you’re living in. But when you compare your “now” with someone else’s “now” far away, the certainty starts to crack. Relativity theory tells you that what counts as “simultaneous” events depends on how you’re moving, so two observers in different states of motion won’t agree on what is happening at the same time.

Tokamak regime sustains stable fusion plasma for one minute while easing heat loads

For the first time, a research team has demonstrated, in a metal-wall environment, a plasma regime that simultaneously achieves partial divertor detachment, an edge-localized-mode (ELM)-free high-confinement mode (H-mode), and high pedestal performance. This integrated regime was sustained on a minute scale and the work is published in Physical Review Letters.

The team was led by Professor Xu Guosheng from the Institute of Plasma Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences.

Controllable nuclear fusion requires managing extreme heat loads on divertor plates while maintaining plasma stability. While impurity gases can reduce divertor heat through detachment, excessive cooling can damage the plasma edge, and H-mode plasmas are prone to sudden, damaging ELMs. Achieving a steady-state regime that addresses both challenges has been a major international goal.

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