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Stephen Hawking’s New Lecture, “Do Black Holes Have No Hair?,” Animated with Chalkboard Illustrations

You can now hear in full on the BBC’s website the first part of Stephen Hawking’s 2016 Reith Lecture—‘Do Black Holes Have No Hair?’ Just above, listen to Hawking’s lecture while you follow along with an animated chalkboard on which artist Andrew Park sketches out the key points in helpful images and diagrams. We alerted you to the coming lecture this past Tuesday, and we also pointed you toward the paper Hawking recently posted online, ‘Soft Hair on Black Holes,’ co-authored with Malcolm J.

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Newfound Wormhole Allows Information to Escape Black Holes | Quanta Magazine

Physicists theorize that a new “traversable” kind of wormhole could resolve a baffling paradox and rescue information that falls into black holes.

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Watch:Finally! Black Hole Original Imaged For First Time By Event Horizon Telescope

For decades, astronomers believed that super-massive black holes exist at the very center of massive galaxies. So far, given their nature, all attempts to observe and study them have been confined to indirect methods. Now the history has been made on April 12th, 2017, changing all that, when an international team of astronomers captured the first-ever image of Sagittarius A*. In order to achieve these astronomers used a series of telescopes around the globe, collectively known as Event Horizon telescope (EHT). Whereby widely-space radio dishes from across the globe are connected into an Earth-sized virtual telescope, is known as Very Long Baseline Interferometry (VLBI)
Watch:Finally! Black Hole Original Imaged For First Time By Event Horizon Telescope
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What Sonic Black Holes Say About Real Ones | Quanta Magazine

Can a fluid analogue of a black hole point physicists toward the theory of quantum gravity, or is it a red herring?

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A naked singularity: Can we spot the most extreme object in the universe?

A team of scientists at the Tata Institute of Fundamental Research (TIFR), Mumbai, India, have found new ways to detect a bare or naked singularity, the most extreme object in the universe.When the fuel of a very massive star is spent, it collapses due to its own gravitational pull and eventually becomes a very small region of arbitrarily high matter density, that is a ‘Singularity’, where the usual laws of physics may breakdown. If this singularity is hidden within an event horizon, which is an invisible closed surface from which nothing, not even light, can escape, then we call this object a black hole. In such a case, we cannot see the singularity and we do not need to bother about its effects. But what if the event horizon does not form? In fact, Einstein’s theory of general relativity does predict such a possibility when massive stars collapse at the end of their life-cycles. In this case, we are left with the tantalizing option of observing a naked singularity.$$!ad_code_content_spilt_video_ad!$$An important question then is, how to observationally distinguish a naked singularity from a black hole. Einstein’s theory predicts an interesting effect: the fabric of spacetime in the vicinity of any rotating object gets ‘twisted’ due to this rotation. This effect causes a gyroscope spin and makes orbits of particles around these astrophysical objects precess. The TIFR team has recently argued that the rate at which a gyroscope precesses (the precession frequency), when placed around a rotating black hole or a naked singularity, could be used to identify this rotating object. Here is a simple way to describe their results. If an astronaut records a gyroscope’s precession frequency at two fixed points close to the rotating object, then two possibilities can be seen: (1) the precession frequency of the gyroscope changes by an arbitrarily large amount, that is, there is a wild change in the behaviour of the gyroscope; and (2) the precession frequency changes by a small amount, in a regular well-behaved manner. For the case (1), the rotating object is a black hole, while for the case (2), it is a naked singularity.

The TIFR team, namely, Dr. Chandrachur Chakraborty, Mr. Prashant Kocherlakota, Prof. Sudip Bhattacharyya and Prof. Pankaj Joshi, in collaboration with a Polish team comprising Dr. Mandar Patil and Prof. Andrzej Krolak, has in fact shown that the precession frequency of a gyroscope orbiting a black hole or a naked singularity is sensitive to the presence of an event horizon. A gyroscope circling and approaching the event horizon of a black hole from any direction behaves increasingly ‘wildly,’ that is, it precesses increasingly faster, without a bound. But, in the case of a naked singularity, the precession frequency becomes arbitrarily large only in the equatorial plane, but being regular in all other planes.$$!ad_code_content_spilt_video_ad2!$$The TIFR team has also found that the precession of orbits of matter falling into a rotating black hole or a naked singularity can be used to distinguish these exotic objects. This is because the orbital plane precession frequency increases as the matter approaches a rotating black hole, but this frequency can decrease and even become zero for a rotating naked singularity. This finding could be used to distinguish a naked singularity from a black hole in reality, because the precession frequencies could be measured in X-ray wavelengths, as the infalling matter radiates X-rays.Provided by: Tata Institute of Fundamental ResearchJournal reference: Physical Review D – Chandrachur Chakraborty et al, Spin precession in a black hole and naked singularity spacetimes

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Spooky Physics Phenomenon May Link Universe's Wormholes

Quantum entanglement might connect wormholes, or shortcuts that in theory can connect distant points in the universe, helping to reconcile general relativity with quantum mechanics.

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Spooky Physics Phenomenon May Link Universe’s Wormholes

Quantum entanglement might connect wormholes, or shortcuts that in theory can connect distant points in the universe, helping to reconcile general relativity with quantum mechanics.