Menu

Blog

Archive for the ‘cosmology’ category: Page 157

Dec 18, 2022

This ghostly particle may be why dark matter keeps eluding us

Posted by in categories: cosmology, particle physics

A new kind of neutrino that’s abundant in life on Earth could explain a major anomaly in particle physics—and help us find dark matter.

Dec 18, 2022

Dark matter: How the ESA’s tiny telescope will reveal more about this mystery

Posted by in category: cosmology

The European Space Agency recently announced a new mission of its science program: a small telescope orbiting the Earth dubbed Arrakhis.

The European Space Agency (ESA) recently announced a new mission of its science.


Amriphoto/iStock.

Continue reading “Dark matter: How the ESA’s tiny telescope will reveal more about this mystery” »

Dec 18, 2022

Octopuses May Link Evolution of Complex Life to Genetic ‘Dark Matter’

Posted by in categories: cosmology, evolution, genetics

Summary: Findings support the theory that microRNAs are essential for the development and evolution of intelligent life.

Source: Dartmouth College.

Octopuses have captured the attention of scientists and the public with their remarkable intelligence, including the use of tools, engaging in creative play and problem-solving, and even escaping from aquariums.

Dec 17, 2022

Unexpected Findings in “Little” Big Bang Experiment Leaves Physicists Baffled

Posted by in categories: cosmology, particle physics

A temperature not seen since the first microsecond of the birth of the universe has been recreated by scientists, and they discovered that the event did not unfold quite the way they expected. The interaction of energy, matter, and the strong nuclear force in the ultra-hot experiments conducted at the Relativistic Heavy Ion Collider (RHIC) was thought to be well understood. However, a detailed investigation has revealed that physicists are missing something in their model of how the universe works. A recent paper detailing the findings appears in the journal Physical Review Letters.

“It’s the things you weren’t expecting that are really trying to tell you something in science,” says Steven Manly, associate professor of physics and astronomy at the University of Rochester and co-author of the paper. “The basic nature of the interactions within the hot, dense medium, or at least the manifestation of it, changes depending on the angle at which it’s viewed. We don’t know why. We’ve been handed some new pieces to the puzzle and we’re just trying to figure out how this new picture fits together.”

“They said, ‘This can’t be. You’re violating boost invariance.’ But we’ve gone over our results for more than a year, and it checks out.” —

Dec 17, 2022

For the First Time EVER: Scientists Created a Black Hole in The Lab, And Then It Started to Glow like ‘Real’ Black Holes

Posted by in categories: cosmology, mathematics, particle physics, quantum physics

Using a chain of atoms in single-file to simulate the event horizon of a black hole, a team of physicists has observed the equivalent of what we call Hawking radiation – particles born from disturbances in the quantum fluctuations caused by the black hole’s break in spacetime.

This, they say, could help resolve the tension between two currently irreconcilable frameworks for describing the Universe: the general theory of relativity, which describes the behavior of gravity as a continuous field known as spacetime; and quantum mechanics, which describes the behavior of discrete particles using the mathematics of probability.

For a unified theory of quantum gravity that can be applied universally, these two immiscible theories need to find a way to somehow get along.

Dec 14, 2022

Antihelium Offers Hope in the Search for Dark Matter

Posted by in category: cosmology

An experiment at the Large Hadron Collider suggests there’s a chance of catching this elusive evidence as it floats through our galactic neighborhood.

Dec 14, 2022

Could axion decay underlie excess cosmic optical background?

Posted by in categories: cosmology, particle physics

The cosmic optical background (COB) is the visible light emitted by all sources outside of the Milky Way. This faint glow of light, which can only be observed using very precise and sophisticated telescopes, could help astrophysics to learn more about the origins of the universe and what lies beyond our galaxy.

Last year, physicists working at different institutes across the United States published the most precise COB measurements collected so far, gathered by the New Horizons spacecraft, an interplanetary space probe launched by NASA over a decade ago. These measurements suggested that the COB is two times brighter than theoretical predictions.

Researchers at Johns Hopkins University have recently carried out a theoretical study exploring the possibility that this observed excess light could be caused by the of a hypothesized type of dark matter particles, known as axions. In their paper, published in Physical Review Letters, they showed that axions with masses between 8 and 20 eV could potentially account for the excess COB flux measured by the New Horizons team.

Dec 14, 2022

Best space images of 2022: 10 stellar views of the universe

Posted by in category: cosmology

The most jaw-dropping pictures of space this year.


From the Pillars of Creation to the Milky Way’s black hole, 2022 has been full of incredible photos from space. Here are the best space pictures of 2022.

Dec 14, 2022

Did physicists make a wormhole in the lab? Not quite, but a new experiment hints at the future of quantum simulations

Posted by in categories: cosmology, quantum physics

When it comes to physics experiments, quantum simulations aren’t quite the real thing – but in some cases they’re much closer than you’d expect.

Dec 13, 2022

The Halo Drive

Posted by in categories: cosmology, media & arts, nuclear energy, physics, space travel

How could we one day travel between the stars with real physics? Perhaps the greatest challenge to interstellar flight is energetics — it takes vast amounts of energy to accelerate even small ships to 20% the speed of light. But what if we could steal that energy from where? Perhaps even a black hole. Enter the “halo drive”, a video by Prof David Kipping based on his new peer-reviewed research paper on the subject.

This video is based on research conducted at the Cool Worlds Lab at Columbia University, New York. You can now support our research program directly here: https://www.coolworldslab.com/support.

Continue reading “The Halo Drive” »