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A new stellar census strengthens the case for a 13.8-billion-year-old universe

Astronomers have used the ages of more than 155,000 stars in the Milky Way to independently estimate the age of the universe, and their findings may be good news for the standard cosmological model. The new research was reported in a paper submitted to the arXiv preprint server on July 1.

The age of the universe is tied to a discrepancy known as the Hubble tension. There are two main ways to measure how fast the universe is expanding, known as the Hubble constant. The first uses the cosmic microwave background (CMB), the “afterglow” of the Big Bang, and gives a certain value. The other uses local measurements in our cosmic neighborhood, including Cepheid stars and supernovae, and gives a noticeably higher value.

The two figures disagree by about 9%—a mismatch known as the Hubble tension.

How the universe generates time and space from a single rewriting rule | Stephen Wolfram

Hypergraphs.


We experience only one small slice of the ruliad. What’s the ruliad? Physicist Stephen Wolfram explains.

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❍ Watch Wolfram’s full interview here: • Physics doesn’t explain the universe. Comp…

Is it time for a new ‘theory of everything’?
World-renowned physicist Stephen Wolfram explains his theory that the universe may be built from simple computational rules. He describes space as a giant network made of tiny “atoms of space,” constantly updating in ways that create time, gravity, quantum mechanics, and the laws of physics. He also introduces the ruliad: the space of all possible computations. Ultimately, Wolfram argues that reality may be far more complex than we can see, shaped by both the universe and how we observe it.

Read the full video transcript: https://bigthink.com/videos/objective

A large amount of the Universe is missing. Scientists think they may have found it

There must be some extra mass that we can’t see – and astronomers call this ‘dark matter’

Astronomers don’t know what dark matter is. And it turns out there’s quite a lot they don’t know about ordinary matter, either.

In fact, quite a lot of ‘normal’ matter is missing. But astronomers now think they might have found it – and it’s been hiding in plain sight all along.

Astronomers may have caught an early galaxy in the process of dying

Astronomers have spotted many “red and dead” galaxies in the early universe. These are massive systems that stopped forming stars surprisingly early in cosmic history. Now, they may have found evidence of one in the act of becoming dead: a massive galaxy being stripped of its starforming gas just 1.4 billion years after the Big Bang. The clues behind why it lost its star-forming material are detailed in a paper posted to the arXiv preprint server on June 16.

Comet-like galaxy SPT2349–56 is an emerging galaxy cluster, or “protocluster,” containing about 30 star-forming galaxies within a region 100 kiloparsecs wide. Among its members, C26 is particularly interesting because of its unusual shape. It has a head and a tail like a comet. It also has a dense, bright region called the “knot,” embedded within the tail. It was first detected in ALMA images.

In this new study, using observations from the Hubble Space Telescope and the James Webb Space Telescope, the team led by Dazhi Zhou of the University of British Columbia studied this galaxy’s head, tail and knot to estimate its mass and star-forming properties.

Gravitational waves reveal hidden populations within black hole mergers

Since gravitational waves were first detected in 2015, instruments including LIGO, Virgo and KAGRA have picked up a steady stream of signals from colliding black holes, building a catalog that now numbers in the hundreds. Yet despite this wealth of data, a fundamental question has remained stubbornly unresolved: How do these black holes actually form?

Now, two independent research teams have used fresh theoretical approaches to comb through the data, and both arrived at a similar conclusion: Merging black holes don’t form a single uniform group, but instead separate into distinct subpopulations, each bearing the fingerprints of different formation mechanisms. Both studies have been published in Physical Review Letters.

Researchers Prove Black Theory in a Laboratory Setting

Researchers at the Advanced Science Research Center at the City University of New York Graduate Center (CUNY-ASRC) have demonstrated something English mathematician and physicist Sir Roger Penrose predicted over 50 years ago. According to Penrose, it would be possible to extract energy from a rapidly spinning (Kerr) black hole by inserting an object into the region just beyond its event horizon (the ergosphere). This object would be accelerated and ejected from the region, carrying more energy than it did when it entered/

In 1971, Soviet physicist Yakov Zeldovich came along and built on this theorem (the Penrose Process), predicting that a wave interacting with a rapidly-spinning object could not only extract energy from it, but amplify it. In a paper recently published in Nature, the team (all members of CUNY-ASRC Photonics Initiative) demonstrated a new approach for amplifying waves through interaction with rotating bodies. Using a radio-frequency device modulated to mimic spinning, they created a synthetic form of ultrafast rotation far beyond what can be achieved mechanically.

Their device and the physical principles it utilizes could allow researchers to overcome limitations that have long hindered experimental studies of ultra-fast rotational dynamics. It consists of a ring-shaped network of electronic resonators whose properties were rapidly modulated in a timed sequence to produce a traveling pattern around the ring. While the device remained still, the traveling pattern of electromagnetic waves created a form of synthetic motion that mimics an object rotating at ultra-fast speed.

The Universe Isn’t Made of Matter… It’s Made of Information

*Description*
What if everything you know about reality is incomplete?

For centuries, scientists believed matter was the foundation of the universe. But modern physics is raising a far more profound question: *What if information is more fundamental than matter itself?*

In this video, we explore the revolutionary ideas behind quantum physics, the Black Hole Information Paradox, consciousness, and the groundbreaking theories of **Sir Roger Penrose**. From empty atoms to the mysterious nature of reality, discover why some physicists believe the universe may be built from information rather than physical objects.

⚠️ *Important:* This video explores scientific theories and ongoing debates. Some ideas discussed—such as Orch-OR and consciousness—remain controversial and are not established scientific consensus.

If you’re fascinated by quantum physics, cosmology, consciousness, and the mysteries of the universe, this journey is for you.

*Don’t forget to Like 👍, Subscribe 🔔, and Share* if you enjoy thought-provoking science content.

New evidence undermines our theories of the universe

New observations appear to have undermined our leading theories of the universe — so claims Kansas State University computer scientist Lior Shamir, who has identified that far more spiral galaxies spin clockwise than counter-clockwise as seen from Earth. This is a near 50% asymmetry, visible to the naked eye. And it grows stronger the deeper into cosmic history we look. Under the cosmological principle, the century-old assumption that the universe looks the same from every vantage point, an observer anywhere should see a roughly even split. Shamir’s data suggests otherwise, and the implications may require a whole new cosmological theory. Furthermore, the same systematic bias that could explain the spiral galaxy asymmetry may also be inflating the measurements behind two of cosmology’s most stubborn open problems: dark energy, the unexplained force thought to be accelerating the universe’s expansion, and the Hubble tension, the unresolved disagreement over how fast the universe is expanding.

The James Webb Space Telescope (JWST) is the most powerful astronomical imaging device ever built. With its ability to image the early universe, it provides observations that challenge our understanding of the cosmos, gradually leading to a new era in cosmology.

One of the unexpected observations made by JWST is the asymmetry between the number of galaxies that rotate in one direction and the number of galaxies that rotate in the opposite direction. That is, the number of galaxies imaged by JWST that rotate clockwise is not the same as the number of galaxies that rotate counterclockwise. That can be seen by observing spiral galaxies imaged by JWST deep field images.

Visualization of Merging Black Holes and Gravitational Waves

Source: Ashtekar A, Paraizo DE, Shu J (2026). “Thermodynamics of Black Holes, Far from Equilibrium.” Physical Review Letters. DOI 10.1103/3c1r-v8f1. Published June 24, 2026. Selected as Editor’s Suggestion. Penn State University. ScienceDaily, July 13, 2026. Quotes: Abhay Ashtekar, Penn State. Video.


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