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Archive for the ‘cosmology’ category: Page 385

Jun 2, 2016

Odds are we’re living in a simulation, says Elon Musk

Posted by in categories: augmented reality, bioengineering, cosmology, Elon Musk, robotics/AI, sustainability, transportation

This is one of those “therotical” topics that many of us have had at some point in our lives with our engineering team pals, or with our research department/ lab buddies. Fun to see Elon Musk share his views on this topic. Who knows; maybe? Last week, we learned that black holes may be nothing more that a multi-layer hologram in space.


“There’s a billion to one chance we’re living in base reality,” Elon Musk said tonight on stage at Recode’s Code Conference, meaning that one of the most influential and powerful figures in tech thinks that it’s overwhelmingly likely we’re just characters living inside a simulation.

The Verge co-founder Josh Topolsky got half-way through asking Musk if he thought our existence was simulated before the Tesla CEO jumped in to finish his question for him. “I’ve had so many simulation discussions it’s crazy,” Musk explained. “You’ve thought about this?” Topolsky asked. “A lot,” Musk replied. “It got to the point where every conversation was the AI / simulation conversation, and my brother and I agreed that we would ban such conversations if we were ever in a hot tub.”

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Jun 2, 2016

New Evidence That Black Holes May Actually Be 2D Holograms

Posted by in categories: cosmology, quantum physics

A team of theoretical physicists used Loop Quantum Gravity, string theory’s biggest contender, and showed that the calculations are consistent with the idea that black holes have no insides, but that objects are stuck on their surface.

There’s a lot in our universe we don’t completely understand, such as dark matter and dark energy. Indeed, in the bizarre world of quantum physics, ideas are constantly shifting and changing regarding the true nature of the (somewhat mysterious) forces that govern our universe.

This is what’s happening now in the debate over what black holes really are.

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Jun 1, 2016

The case for black holes being nothing but holograms just got even stronger

Posted by in categories: cosmology, physics

If anything can sum up just how little we truly know about the Universe, it’s black holes.

We can’t see them because not even light can escape their gravitational pull, we have no idea what they’re made of, and where does everything inside go once a black hole dies?

Physicists can’t even agree on whether black holes are massive, three-dimensional behemoths, or just two-dimensional surfaces that are projected in 3D just like a hologram.

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Jun 1, 2016

Graphene That Behaves Like Water Can Pave Way For Chips That Can Model Black Hole, Supernova Behaviors

Posted by in categories: computing, cosmology, particle physics

Researchers used high-purity graphene and observed for the first time that its charged particles behave like fluid with relativistic properties. This discovery holds promise for thermoelectric devices as well as for studying the behavior of black holes and celestial bodies.

( Peter Allen/Harvard SEAS )

Electrons in graphene appear for the first time to behave like a liquid, potentially leading to devices that can efficiently convert heat to electricity and chips that can precisely model the behavior of black holes and high-energy celestial objects.

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May 31, 2016

Are black holes HOLOGRAMS?

Posted by in categories: cosmology, quantum physics

Black Holes possibly be Holograms?


Researchers at the Max Planck Institute for Theoretical Physics in Munich, Germany, have used quantum gravity to estimate the chaotic structure that may exist within black holes.

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May 29, 2016

Understanding A 10 Dimensional Universe

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

When someone mentions “different dimensions,” we tend to think of things like parallel universes — alternate realities that exist parallel to our own, but where things work or happened differently. However, the reality of dimensions and how they play a role in the ordering of our Universe is really quite different from this popular characterization.

To break it down, dimensions are simply the different facets of what we perceive to be reality. We are immediately aware of the three dimensions that surround us on a daily basis – those that define the length, width, and depth of all objects in our universes (the x, y, and z axes, respectively).

Beyond these three visible dimensions, scientists believe that there may be many more. In fact, the theoretical framework of Superstring Theory posits that the universe exists in ten different dimensions. These different aspects are what govern the universe, the fundamental forces of nature, and all the elementary particles contained within.

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May 27, 2016

Dark Matter + Black Hole = Wormhole?

Posted by in categories: cosmology, particle physics

According to a paper posted to the arXiv pre-print server last week, the difference between an everyday supermassive black hole and a space-time tunneling wormhole may be a lacing of dark matter. While it sounds like crank fodder of the sort that not infrequently winds up on arXiv, the idea may hold actual water.

The theory pertains to one particular proposed form of dark matter known as axionic dark matter. Axions, a hypothesized fundamental particle of matter relating to the strong nuclear force, aren’t the only proposed candidate for dark matter, but as searches for WIMPs (weakly-interacting massive particles)—far and away the favored proposed particle comprising dark matter—come up empty, axionic dark matter has become a more and more plausible scenario. As theorized, dark matter axions would permeate the universe as an energetic condensate, interacting only very weakly via the electromagnetic force and existing as a kind of ghostly cosmic foam.

Crucially, while individual axions would be very light, they would together make up enough mass to account for the dark matter halos that form the gravitational scaffolding of galaxies. Axions are currently being hunted for via experiments involving giant Earth-based mirrors.

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May 27, 2016

Loop quantum gravity theory offers glimpse beyond the event horizon

Posted by in categories: cosmology, quantum physics

In principle, nothing that enters a black hole can leave the black hole. This has considerably complicated the study of these mysterious bodies, which generations of physicists have debated since 1916, when their existence was hypothesized as a direct consequence of Einstein’s Theory of Relativity. There is, however, some consensus in the scientific community regarding black hole entropy—a measure of the inner disorder of a physical system—because its absence would violate the second law of thermodynamics. In particular, Jacob Bekenstein and Stephen Hawking have suggested that the entropy of a black hole is proportional to its area, rather than its volume, as would be more intuitive. This assumption also gives rise to the “holography” hypothesis of black holes, which (very roughly) suggests that what appears to be three-dimensional might, in fact, be an image projected onto a distant two-dimensional cosmic horizon, just like a hologram, which, despite being a two-dimensional image, appears to be three-dimensional.

As we cannot see beyond the event horizon (the outer boundary of the back hole), the internal microstates that define its entropy are inaccessible. So how is it possible to calculate this measure? The theoretical approach adopted by Hawking and Bekenstein is semiclassical (a sort of hybrid between classical physics and quantum mechanics) and introduces the possibility (or necessity) of adopting a quantum gravity approach in these studies in order to obtain a more fundamental comprehension of the physics of .

Planck’s length is the (tiny) dimension at which space-time stops being continuous as we see it, and takes on a discrete graininess made up of quanta, the “atoms” of space-time. The universe at this dimension is described by quantum mechanics. Quantum gravity is the field of enquiry that investigates gravity in the framework of . Gravity has been very well described within classical physics, but it is unclear how it behaves at the Planck scale.

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May 25, 2016

Hunting for dark matter’s ‘Hidden Valley’

Posted by in categories: cosmology, physics

Kathryn Zurek realized a decade ago that we may be searching in the wrong places for clues to one of the universe’s greatest unsolved mysteries: dark matter. Despite making up an estimated 85 percent of the total mass of the universe, we haven’t yet figured out what it’s made of.

Now, Zurek, a theoretical physicist at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab), says thanks to extraordinary improvements in experimental sensitivity, “We increasingly know where not to look.” In 2006, during grad school, Zurek began to explore the concept of a new “Hidden Valley” model for physics that could hold all of the answers to .

“I noticed that from a model-builder’s point of view that dark matter was extraordinarily undeveloped,” she said. It seemed as though scientists were figuratively hunting in the dark for answers. “People were focused on models of just two classes of , rather than a much broader array of possibilities.”

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May 24, 2016

Scientist suggests possible link between primordial black holes and dark matter

Posted by in categories: cosmology, particle physics

Dark matter is a mysterious substance composing most of the material universe, now widely thought to be some form of massive exotic particle. An intriguing alternative view is that dark matter is made of black holes formed during the first second of our universe’s existence, known as primordial black holes. Now a scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, suggests that this interpretation aligns with our knowledge of cosmic infrared and X-ray background glows and may explain the unexpectedly high masses of merging black holes detected last year.

“This study is an effort to bring together a broad set of ideas and observations to test how well they fit, and the fit is surprisingly good,” said Alexander Kashlinsky, an astrophysicist at NASA Goddard. “If this is correct, then all galaxies, including our own, are embedded within a vast sphere of black holes each about 30 times the sun’s mass.”

In 2005, Kashlinsky led a team of astronomers using NASA’s Spitzer Space Telescope to explore the background glow of infrared light in one part of the sky. The researchers reported excessive patchiness in the glow and concluded it was likely caused by the aggregate light of the first sources to illuminate the universe more than 13 billion years ago. Follow-up studies confirmed that this cosmic infrared background (CIB) showed similar unexpected structure in other parts of the sky.

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