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There is something strange happening in the core of the Milky Way. A space observatory measuring the energy and distribution of gamma-rays in the cosmos has made an unexpected (and perplexing) discovery. It would seem there is a very high proportion of gamma-ray photons emanating from our galactic core with a very distinctive signature; they have a precise energy of 511 keV (8×10-14 Joules), and there’s a lot of them. So what could possibly be producing these 511 keV gamma-rays? It turns out, 511 keV is a magic number; it is the exact rest mass energy of a positron (the...

Enlarge ImageIt's relative. Astronomers have been measuring spin precession in an eclipsing pair of pulsars.Credit: Daniel Cantin/McGill University As if his reputation needed cementing, astronomers have confirmed Albert Einstein's status as a supergenius once more. Studying a unique pair of pulsars--small and extremely dense leftovers from supernova explosions--researchers have measured an effect that was predicted by Einstein's 92-year-old general theory of relativity. The result, they report tomorrow in Science, is almost exactly what the famous physicist had foreseen. In Einstein's relativistic universe, matter curves space and slows down time, and the speed of light remains the only constant. But...

If all goes according to plan, a massive underground facility in Switzerland will begin smashing particles together later this summer in an effort to provide a clearer understanding of the physical universe than has ever before been possible. Known as the Large Hadron Collider, or LHC, the project is composed of a 17-mile circular tunnel beneath Geneva, containing thousands of magnets meant to send beams of subatomic particles hurtling toward each other. The resulting collisions are expected to release matter similar to that present at the "Big Bang" that created the universe.

That black hole that was going to eat the Earth? Forget about it, and keep making the mortgage payments — those of you who still have them. A new particle accelerator, the Large Hadron Collider scheduled to go into operation this fall outside Geneva, is no threat to the Earth or the universe, according to a new safety review approved Friday by the governing council of the European Organization for Nuclear Research, or Cern, which is building the collider. “There is no basis for any concerns about the consequences of new particles or forms of matter that could possibly be...

Lawsuit stirs fear of 'strangelets' destroying the Earth; 100,000 chips deployed SAN FRANCISCO (MarketWatch) -- If all goes according to plan, a massive underground facility in Switzerland will begin smashing particles together later this summer in an effort to provide a clearer understanding of the physical universe than has ever before been possible.For companies like Oracle Corp. and Hewlett-Packard Co., which have helped develop a system to send the resulting data surging through a sprawling network, the project is already providing a chance to test some of their most cutting-edge technologies. Video: Tech giants aid project Some of the biggest...

How did the universe begin, and how will it end? Among cosmologists, the mainstream belief is that the universe began with a bang billions of years ago, and will fizzle out billions of years from now. But two theorists have just fired their latest volley at that belief, saying there could be a timeless cycle of expansion and contraction. It’s an idea as old as Hinduism, updated for the 21st century.THE “CYCLIC MODEL,” developed by Princeton University’s Paul Steinhardt and Cambridge University’s Neil Turok, made its highest-profile appearance yet Thursday on Science Express, the Web site for the journal Science....

The question of what happened before the Big Bang long has frustrated cosmologists, both amateur and professional. Though Einstein's theory of general relativity does an excellent job of describing the universe almost back to its beginning, near the Big Bang matter becomes so dense that relativity breaks down, says Penn State physicist Abhay Ashtekar. "Beyond that point, we need to apply quantum tools that were not available to Einstein." Now Ashtekar and two of his post-doctoral researchers, Tomasz Pawlowski and Parmpreet Singh, have done just that. Using a theory called loop quantum gravity, they have developed a mathematical model that...

TIME BEFORE TIME An event like the Big Bang is about as likely as billions of coin tosses all coming up heads. Explaining why that is might take us from empty space to other universes--and through the mirror of time. by Sean Carroll • Posted August 28, 2006 11:53 AM From the SEPTEMBER issue of Seed:    The nature of time is such that the influence of the very beginning of the universe stretches all the way into your kitchen—you can make an omelet out of an egg, but you can't make an egg out of an omelet. Time, unlike...

Heads up! Tomorrow night (February 26, 2008 at 9:00 PM), the History Channel will air a new segment of their Universe series that could be very interesting. It will try to address what was before the Big Bang. This is a subject I don't see anyway of discussing without raising religious beliefs.

A team of physicists has claimed that our view of the early Universe may contain the signature of a time before the Big Bang.

A team of physicists has claimed that our view of the early Universe may contain the signature of a time before the Big Bang. The discovery comes from studying the cosmic microwave background (CMB), light emitted when the Universe was just 400,000 years old. Their model may help explain why we experience time moving in a straight line from yesterday into tomorrow.

LONDON: Scot physicists have found a way to make objects float in the air without any physical support, something that is known as the levitation effect. Professor Ulf Leonhardt and Dr Thomas Philbin of the University of St Andrews say that the "incredible levitation effects" can be achieved by reversing the Casimir force, which normally causes objects to stick together...

ST. LOUIS — Quark stars, exotic objects that have yet to be directly observed, are part of a new theory to explain some of the brightest stellar explosions recorded in the universe. Super-luminous supernovae, which produce more than 100 times more light energy than normal supernovae and occur in about one out of every 1,000 supernovae explosions, have long baffled astrophysicists. The problem has been finding a source for all of that extra energy. University of Calgary astrophysicists Denis Leahy and Rachid Ouyed think they have a possible source — the explosive conversion of a neutron star into a quark...

European particle physics laboratory CERN is set to launch its gigantic experiment which hopes to throw light on the origins of the universe within a month, the laboratory's head said Tuesday. If things go according to plan, the greatest experiment in the history of particle physics could unveil a sub-atomic component, the Higgs Boson, known as "the God Particle." The "Higgs," named after the eminent British physicist, Peter Higgs, who first proposed it in 1964, would fill a gaping hole in the benchmark theory for understanding the physical cosmos. Other work on the so-called Large Hadron Collider (LHC) could explain...

On May 22, researchers at Osaka University presented the first demonstration of cold fusion since an unsuccessful attempt in 1989 that has clouded the field to this day. To many people, cold fusion sounds too good to be true. The idea is that, by creating nuclear fusion at room temperature, researchers can generate a nearly unlimited source of power that uses water as fuel and produces almost zero waste. Essentially, cold fusion would make oil obsolete. However, many experts debate whether money should be spent on cold fusion research or applied to more realistic alternative energy solutions. For decades,...

HOUSTON, Oct. 25, 2001 — The complete workings of quantum mechanics and how it affects the universe is still a mystery, but Rice University-led physicists have made a key advancement in understanding how complex quantum fluctuations play a role in the transformation of metals from one electronic state to another. The findings provide insight into the electronic structure of strongly correlated materials — materials that are potentially significant for far-reaching technological applications in nanotechnology and high-temperature superconductors. Rice University theoretical physicist Qimiao Si and his team of researchers report their discovery of an entirely new class of critical point — ...

WASHINGTON (Reuters) - Astronomers have found some matter that had been missing in deep space and say it is strung along web-like filaments that form the backbone of the universe. The ethereal strands of hydrogen and oxygen atoms could account for up to half the matter that scientists knew must be there but simply could not see, the researchers reported on Tuesday. Scientists have long known there is far more matter in the universe than can be accounted for by visible galaxies and stars. Not only is there invisible baryonic matter -- the protons and neutrons that make up atoms...

Observations of the cosmic microwave background might deal blow to theory. The background patterns of space could help us focus on quantum problems.NASA / ESA / Hubble Heritage Team The question of whether quantum mechanics is correct could soon be settled by observing the sky — and there are already tantalizing hints that the theory could be wrong. Antony Valentini, a physicist at Imperial College, London, wanted to devise a test that could separate quantum mechanics from one of its closest rivals — a theory called bohmian mechanics. Despite being one of the most successful theories of physics, quantum mechanics...

WASHINGTON (Reuters) - Astronomers are baffled after finding an exotic type of star called a pulsar apparently locked in an elongated orbit around a star much like the sun -- an arrangement defying what had been known about such objects. The rapidly spinning pulsar -- an extraordinarily dense object created when a massive star exploded as a supernova -- is called J1903+0327 and is located about 21,000 light years from Earth, the astronomers said. A light year is about 6 trillion miles, the distance light travels in a year. "The big question is -- how in the heck did this...

International scientists have used flowing water to simulate a black hole, testing Stephen Hawking's theory that black holes are not black after all. The researchers, led by Professor Ulf Leonhardt at the University of St Andrews and Dr Germain Rousseaux at the University of Nice, used a water channel to create analogues of black holes, simulating event horizons. An event horizon is the place in the channel where the water begins to flow faster than the waves. The scientists sent waves against the current, varied the water speed and the wavelength, and filmed the waves with video cameras. Over several...