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Category: cosmology – Page 63

In this episode of Cosmology 101, we learn how the detection of the Cosmic Microwave Background (CMB) validated the Big Bang Theory and led to the development of the concept of cosmic inflation.

Explore the challenges and ongoing debates in cosmology as scientists seek to uncover the true nature of the early universe and the origins of cosmic structure.

Join Katie Mack, Perimeter Institute’s Hawking Chair in Cosmology and Science Communication, on an incredible journey through the cosmos in our new series, Cosmology 101.

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Continue reading “Cosmic Inflation Explained | Cosmology 101 Episode 6” | >

Not only does God play dice, that great big casino of quantum physics could have far more rooms than we ever imagined. An infinite number more, in fact.

Physicists from the University of California, Davis (UCD), the Los Alamos National Laboratory in the US, and the Swiss Federal Institute of Technology Lausanne have redrawn the map of fundamental reality to demonstrate the way we relate objects in physics could be holding us back from seeing a bigger picture.

For about a century, our understanding of reality has been complicated by the theories and observations that fall under the banner of quantum mechanics. Gone are the days when objects had absolute measures like velocity and position.

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“Dark matter searches are currently one of the hot topics in the high energy physics community. We look for weakly interacting particles in a number of different facilities ranging from accelerator experiments to tabletop laboratory setups,” Alina Kleimenova and Stefan Ghinescu, part of the NA62 Collaboration, told Phys.org.

“While LHC experiments rely on the high collision energy, smashing protons at about 14 trillion electron volts, NA62, being a fixed-target experiment, focuses on the high intensity approach with a quintillion (1018) of protons on target per year. This intensity creates a unique opportunity to probe various rare processes and beyond Standard Model scenarios.”

Dark photons, also referred to as A’, are among the beyond the Standard Model whose existence could be probed by the NA62 detector. These particles could act as mediators between known visible matter and dark matter.

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Black holes are some of the most mysterious and awe-inspiring celestial objects in science, and while pairs of black holes or a black hole orbiting another object like a star, known as binary black holes, have been confirmed to exist, what about triple systems? This is what a recent study published in Nature hopes to address as a team of researchers from the Massachusetts Institute of Technology (MIT) and the California Institute of Technology (Caltech) announced the discovery of a “black hole triple”, meaning three black holes are orbiting each other simultaneously. This study holds the potential to help researchers better understand the formation and evolution of black holes and what this can teach us about the universe, overall.

For the study, the researchers examined the binary black hole system V404 Cygni, which consists of a central black hole being orbited by two stars, with one orbiting in 6.5 days while the other takes approximately 70,000 years to complete one orbit. It is this second object that has scientists scratching their heads, as it is confounding how an object so far away can be influenced by a black hole’s gravity. While black holes are often created from a supernova, or the collapse and explosion of a large star, this means the explosion should have pushed away the farther star in this system. Therefore, the team postulates this black hole was formed by what’s known as a “direct collapse”, which is a smaller and gentler process when a star collapses in on itself as opposed to producing an outward explosion.

“We think most black holes form from violent explosions of stars, but this discovery helps call that into question,” said Dr. Kevin Burdge, who is a Pappalardo Fellow in the MIT Department of Physics and lead author of the study. “This system is super exciting for black hole evolution, and it also raises questions of whether there are more triples out there.”

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‘’Exploring black holes’’ by Wheeler and Taylor.

A primer on black holes and general relativity.

https://pubs.aip.org/aapt/ajp/article/89/1/121/1045741/Exploring-Black-Holes

The first edition of Exploring Black Holes: Introduction to General Relativity, authored by Oersted Medal winner Edwin Taylor and foremost relativist John Archibald Wheeler, offered a concise, directed examination of general relativity and black holes. Its goal was to provide tools that motivate students to become active participants in carrying out their own investigations about curved spacetime near Earth and black holes. To that end, the book used calculus and algebra, rather than tensors, to make general relativity accessible to second-and third-year students.

In this second edition — labeled EBH2e — coauthor Edmund Bertschinger joins Edwin F. Taylor to revise and expand the first edition. The text uses the properties of non-spinning and spinning black holes to introduce Albert Einstein’s theory of curved spacetime and applies the resulting general relativity to the Universe around us.

There is no published hard copy textbook of EBH2e. Instead, you may freely download the online version through the links below for personal and class use. For full details, download the README file below.

Continue reading “Exploring Black Holes, 2nd edition, FREE download” | >