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Archive for the ‘cosmology’ category: Page 9

Sep 8, 2024

Loosening the Hubble Tension

Posted by in categories: cosmology, physics

New James Webb Space Telescope observations may have done with one of the longest-standing tensions in cosmology.

For almost a decade, astronomers have been struggling with a nagging mismatch between two different ways of determining the Hubble constant — a measure of the current expansion rate of the universe. This mismatch, known as the Hubble tension, has led to claims that new physics might be needed to solve the issue. (Read about the “constant controversy” in the June 2019 issue of Sky & Telescope.)

But a detailed analysis of a new set of James Webb Space Telescope (JWST) observations now suggests that the problem may not exist. “As Carl Sagan said, extraordinary claims require extraordinary evidence,” says Wendy Freedman (University of Chicago), “and I don’t see extraordinary evidence.”

Sep 8, 2024

Astronomers witnessed a sudden activation of a supermassive black hole in real time

Posted by in category: cosmology

Astronomers capture rare black hole awakening, witnessing a galaxy’s core flare up in real-time.

Sep 7, 2024

Why are black holes stable against their own gravity?

Posted by in categories: cosmology, quantum physics

Neutron stars are timelike matter with a maximum mass of about 2.34 solar masses in quantum chromodynamics (the strong color force). Black holes are spacelike matter that have no maximum mass, but a minimum mass of 2.35 solar masses. Indeed, black holes have been identified with millions or billions of solar masses.

Sep 7, 2024

Massive merger: Study reveals evidence for origin of supermassive black hole at galaxy’s center

Posted by in category: cosmology

The origins of aptly named supermassive black holes—which can weigh in at more than a million times the mass of the sun and reside in the center of most galaxies—remain one of the great mysteries of the cosmos.

Sep 7, 2024

Elon Musk says SpaceX to launch first uncrewed Starships to Mars in two years

Posted by in categories: cosmology, Elon Musk, information science, quantum physics, space travel

Scientists have finally figured out a way to connect the dots between the macroscopic and the microscopic worlds. Their magical equation might provide us answers to questions like why black holes don’t collapse and how quantum gravity works.

Sep 6, 2024

AI helps distinguish dark matter from cosmic noise

Posted by in categories: cosmology, robotics/AI

Dark matter is the invisible force holding the universe together—or so we think. It makes up about 85% of all matter and around 27% of the universe’s contents, but since we can’t see it directly, we have to study its gravitational effects on galaxies and other cosmic structures. Despite decades of research, the true nature of dark matter remains one of science’s most elusive questions.

Sep 6, 2024

Can Space and Time Exist as Two Shapes at Once? Mind-Bending Experiments Aim to Find Out

Posted by in categories: cosmology, quantum physics

Proposed experiments will search for signs that spacetime is quantum and can exist in a superposition of multiple shapes at once.

By Nick Huggett & Carlo Rovelli

There is a glaring gap in our knowledge of the physical world: none of our well-­established theories describe gravity’s quantum nature. Yet physicists expect that this quantum nature is essential for explaining extreme situations such as the very early universe and the deep interior of black holes. The need to understand it is called the problem of “quantum gravity.”

Sep 5, 2024

Galaxy Interactions and Cosmic Illusions: Webb’s Stunning New Images

Posted by in category: cosmology

“Both galaxies in the Question Mark Pair show active star formation in several compact regions, likely a result of gas from the two galaxies colliding,” said Dr. Vicente Estrada-Carpenter.


How did stars form 7 billion years ago, or approximately halfway between the Big Bang and now? This is what a recent study published in the Monthly Notices of the Royal Astronomical Society hopes to address as an international team of researchers used NASA’s James Webb Space Telescope (JWST) to observe two distant galaxies using the gravitational lensing method, which is a “magnifying glass” that forms around large celestial objects that warp the fabric of space-time. This study holds the potential to help astronomers better understand the conditions in the early universe and the techniques used to study those conditions.

While the gravitational lensing method enables observations of distant objects, those objects also tend to appear distorted due to the space-time warping. In this case, the distant galaxies being observed appear together as a question mark in the JWST images, though astronomers were still able to learn quite a bit about this galaxy. These findings included new insights into star formation, with several stars in the red galaxy exhibiting various stages of formation, including bursty stars, quenching stars, and stars in equilibrium.

Continue reading “Galaxy Interactions and Cosmic Illusions: Webb’s Stunning New Images” »

Sep 4, 2024

Bridging quantum mechanics and cosmology: The role of the generalized uncertainty principle

Posted by in categories: cosmology, quantum physics

In a continuous pursuit to understand the fundamental laws that govern the universe, researchers have ventured deep into the realms of string theory, loop quantum gravity, and quantum geometry. These advanced theoretical frameworks have revealed an especially compelling concept: the generalized uncertainty principle (GUP).

Sep 3, 2024

Quantum Thermodynamics: Black Holes Might Not Be What We Thought

Posted by in categories: cosmology, quantum physics

A recent study underscores the dynamic nature of black holes and extends similar thermodynamic characteristics to Extremely Compact Objects, advancing our comprehension of their behavior in quantum gravity scenarios.

A paper titled “Universality of the thermodynamics of a quantum-mechanically radiating black hole departing from thermality,” published in Physics Letters B highlights the importance of considering black holes as dynamical systems, where variations in their geometry during radiation emissions are critical to accurately describing their thermodynamic behavior.

Bridging black holes and extremely compact objects.

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