Keyword: stringtheory
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Researchers from Michigan have scoured websites, search engine results and social networks dating back as far as 1996 in search of people who discussed select events before they happened. They even asked time travellers from the future to tweet using a specific hashtag. Yet despite comprehensive analysis of thousands of records, they were unable to find any evidence time travellers existed.
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Big-bang-defying giant of astronomy passes away by John G. Hartnett Published: 31 December 2013 (GMT+10) Halton Arp passed away on Saturday morning 28th December 2013 in Munich, Germany. He will be sorely missed by many but not so much by others because of his challenges to the ruling big bang paradigm. With Geoffrey Burbidge and others, Professor Halton Arp was a thorn in the side of those who held to the standard story line of the big bang. In many papers and several books1 he promoted the idea that quasars are born from the nucleus of active galaxies—parent galaxies. In...
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Original Title:Hubblecast 70 Explains How Gravitational Lensing Will Help Uncover the Secrets of the Universe This eight minute Hubblecast video takes a look at gravitational lensing, explaining how it works and how it can help astronomers uncover the secrets of the Universe.
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Rapatronic Nuclear Photographs-Images Taken Within 10 Nano-Seconds of Nuclear Detonation Click Here:The Camera That Captured the First Millisecond of a Nuclear Bomb Blast Wikipedia:Rapatronic Camera From Wikipedia, the Free Encyclopedia Nuclear explosion photographed by rapatronic camera less than 1 millisecond after detonation. From the Tumbler-Snapper test series in Nevada, 1952. The fireball is about 20 meters in diameter in this shot. The spikes at the bottom of the fireball are known as the rope trick effect. The rapatronic camera (a contraction of rapid action electronic) is a high-speed camera capable of recording a still image with an exposure time as...
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Using the South Pole Telescope, scientists observed patterns known as "B-modes," which occur when a massive object bends a light source, like a lens. These B-modes interacted with matter from very early in the history of the universe, some 400,000 years after the Big Bang. John Carlstrom, the S. Chandrasekhar Distinguished Service Professor in Astronomy & Astrophysics at the University of Chicago, lead the research team. The multi-institutional team published their work Sept. 30 in the journal Physical Review Letters. "The detection of B-mode polarization by South Pole Telescope is a major milestone, a technical achievement that indicates exciting physics...
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A research team from the University of Singapore has developed a device that can make objects invisible by bathing them in a beam of darkness. The system takes the conventional approach to optics -- which generally aims to make images as sharp and clear as possible -- and turns it completely on its head. Usually imaging systems focus light into a pattern known as a point spreading function, which consists of a spiked central region of high intensity (the main lobe) surrounded by a concentric region of lower intensity light and a higher intensity lobe after this. In order to...
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To think that our universe is 13.8 billion years old is incredible enough. But now researchers are proposing that the universe stretches back into time infinitely with no singular point where it started. The idea is one possible result of something known as ‘rainbow gravity’- a theory that is not widely accepted among physicists, though many say the idea is interesting. The theory’s name comes from a suggestion that gravity's effect on the cosmos is felt differently by varying wavelengths of light, which can be found in the colours of the rainbow. The theory was proposed 10 years ago in...
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There’s a web post from the Nature website going around entitled “Simulations back up theory that Universe is a hologram.” It’s an interesting concept, but suffice it to say, the universe is not a hologram, certainly not in the way people think of holograms. So what is this “holographic universe” thing? ... From this you get a headline implying that we live in a hologram. On twitter, Ethan Siegel proposed a more sensible headline: “Important idea of string theory shown not to be mathematically inconsistent in one particular way”.
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The universe could be about to collapse, and everything in it—including us—will be compressed into a small, hard ball. The process may already have started somewhere in our cosmos and is eating away at the rest of the universe, according to theoretical physicists. The mind-bending concept has been around for a while, but now researchers in Denmark claim they have proven it is possible with mathematical equations. …
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High-temperature superconductors exhibit a frustratingly varied catalog of odd behavior, such as electrons that arrange themselves into stripes or refuse to arrange themselves symmetrically around atoms. Now two physicists propose that such behaviors – and superconductivity itself – can all be traced to a single starting point, and they explain why there are so many variations. This theory might be a step toward new, higher-temperature superconductors that would revolutionize electrical engineering with more efficient motors and generators and lossless power transmission. -snip- Most subatomic particles have a tiny magnetic field – a property physicists call "spin" – and electrical resistance...
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Sherwyn Sarabi scored an IQ of 160, just like Albert Einstein, Bill Gates, and Stephen Hawking. The British boy is already studying at the level of a 9-year-old and has read over 190 books. A four-year-old boy has stunned psychologists—after intelligence tests revealed him to have the same IQ as Einstein. Sherwyn Sarabi has tested off the scale for intelligence—scoring an IQ of 160—the highest mark on the test. It's the same score that experts believe scientist Einstein had, as well as being identical to that of Bill Gates and Stephen Hawking. Sherwyn from Barnsley, Yorks, started school two years...
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For the first time, scientists at IBM Research have demonstrated a complex quantum mechanical phenomenon known as Bose-Einstein condensation (BEC), using a luminescent polymer (plastic) similar to the materials in light emitting displays used in many of today's smartphones. Applications could include energy-efficient lasers and optical switches, critical components for future computer systems processing Big Data Quantum Phenomenon Could Mean Breakthrough for Exascale Systems This discovery has potential applications in developing novel optoelectronic devices including energy-efficient lasers and ultra-fast optical switches – critical components for powering future computer systems to process massive Big Data workloads. The use of a...
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An idea hatched around a Dallas swimming pool 50 years ago has blossomed into one of the world’s most prestigious scientific conferences. Starting Sunday, more than 450 experts on gravity, black holes and the newly discovered Higgs boson — the subject of this year’s Nobel Prize in physics — will gather at the Fairmont Hotel in downtown Dallas to discuss the newest findings and most pressing mysteries in their fields
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The problem is that our understanding of both particle physics and the geometry of gravity is incomplete. “Having gone from basically philosophical understandings of why things fall to mathematical descriptions of how things accelerate down inclines from Galileo, to Kepler’s equations describing planetary motion to Newton’s formulation of the Laws of Physics, to Einstein’s formulations of relativity, we’ve been building and building a more comprehensive view of gravity. But we’re still not complete,” said Dr. Pamela Gay. “We know that there still needs to be some way to unite quantum mechanics and gravity and actually be able to write down...
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Sonner then set about to create quarks to see if he could watch what happens when two are entangled with each other. Using an electric field, he was able to catch pairs of particles coming out of a vacuum environment with a few “transient” particles in it. - Once he caught the particles, he mapped them in terms of space-time (four-dimensional space). Note: gravity is believed to be the fifth dimension because it can bend space-time [5th Dimension?], as you can see in these images of galaxies below. - Sonner then tried to figure out what would happen in the...
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Quantum entanglement, a perplexing phenomenon of quantum mechanics that Albert Einstein once referred to as “spooky action at a distance,” could be even spookier than Einstein perceived. Physicists at the University of Washington and Stony Brook University in New York believe the phenomenon might be intrinsically linked with wormholes, hypothetical features of space-time that in popular science fiction can provide a much-faster-than-light shortcut from one part of the universe to another. But here’s the catch: One couldn’t actually travel, or even communicate, through these wormholes, said Andreas Karch, a UW physics professor. Quantum entanglement occurs when a pair or a...
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A few months ago, physicist Harold White stunned the aeronautics world when he announced that he and his team at NASA had begun work on the development of a faster-than-light warp drive. His proposed design, an ingenious re-imagining of an Alcubierre Drive, may eventually result in an engine that can transport a spacecraft to the nearest star in a matter of weeks — and all without violating Einstein's law of relativity. We contacted White at NASA and asked him to explain how this real life warp drive could actually work.
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HOUSTON — Beyond the security gate at the Johnson Space Center’s 1960s-era campus here, inside a two-story glass and concrete building with winding corridors, there is a floating laboratory. Harold G. White, a physicist and advanced propulsion engineer at NASA, beckoned toward a table full of equipment there on a recent afternoon: a laser, a camera, some small mirrors, a ring made of ceramic capacitors and a few other objects. He and other NASA engineers have been designing and redesigning these instruments, with the goal of using them to slightly warp the trajectory of a photon, changing the distance it...
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Using a compact but powerful laser, a research team at the University of Nebraska-Lincoln has developed a new way to generate synchrotron X-rays. Although the high quality of synchrotron X-rays make them ideal for research ranging from the structure of matter to advanced medical images, access to the technology has been limited until now. Most traditional synchrotron X-ray devices are gigantic and costly, available only at a few sites around the world. As reported in this week's issue of the top-ranked optics journal Nature Photonics, researchers at UNL's Extreme Light Laboratory developed a novel method to generate research-quality X-rays using...
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ï Most mathematicians have a sense that the twin primes conjecture should be true — the positioning of the prime numbers appear to be more or less random, even though on average the gaps between primes get larger, and if one has an infinitely long list of random odd numbers, we should have an infinite collection of pairs in our list. If at some point, prime numbers are always more than two numbers away from each other, we have a non-random aspect to their distribution that goes against this intuition.
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