Large Hadron Collider
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The Large Hadron Collider is smashing protons again after a three-year hiatus
It was shut down for maintenance and upgrades, so it can deliver more data.
CERN approves plans for a $23 billion, 62-mile long super-collider
CERN has approved plans to build a $23 billion super-collider 100 km in diameter (62 miles) that would make the current 27 km 16 teraelectron volt (TeV) Large Hadron Collider (LHC) look tiny in comparison.
Cord-munching weasel temporarily knocks the LHC offline
Just weeks after coming online from a series of crucial upgrades, CERN's Large Hadron Collider was knocked back offline overnight after a weasel (potentially a Marten) chomped through the wrong power cable. "We had electrical problems, and we are pretty sure this was caused by a small animal," CERN spokesman, Arnaud Marsollier, told NPR.
Higgs boson pioneers are knighted by the Queen
Two UK scientists connected to the discovery of the Higgs boson in 2012 have been awarded one of Britain's highest honors. As part of the Queen's Birthday Honours, professors Tom Kibble and Tejinder Virdee were knighted for their roles in helping find the elusive "god" particle, although they did so in very different ways. Kibble is widely revered for his co-discovery of the Higgs mechanism in the mid-1960s, which helped explain why the particles have mass. Virdee, on the other hand, played a crucial role in developing the concept of CERN's particle-detecting Compact Muon Solenoid (or CMS) in 1990. Decades later, scientists at CERN detected the Higgs boson using CMS and another detector, ATLAS.
Into the heart of CERN: an underground tour of the Large Hadron Collider (video)
"Why, sometimes I've believed as many as six impossible things before breakfast." ― Lewis Carroll, Alice in Wonderland I've been to see ALICE -- though there was no looking glass to jump through, just a retina scanner and one very long elevator ride down into the earth. I've toured a CMS that has nothing to do with online publishing. I've even gently laid my body on the most powerful particle accelerator in the world and raised the ire of surrounding engineers in the interest of a good shot. I did all of this at CERN, the international particle physics laboratory located near Geneva, Switzerland. But you probably know it best as the birthplace of the world wide web and home of the Large Hadron Collider. And, yes, it was all exactly like a walking fever dream. %Gallery-192868% %Gallery-192867% %Gallery-192869% %Gallery-192870%
Visualized: step inside CERN's particle-detecting Compact Muon Solenoid
It's spring maintenance time over at the Large Hadron Collider, and the folks at CERN have seen fit to crack open the Compact Muon Solenoid to get at some of its loose connectors. You see, after three years, 99-percent of the the lead tungstate-based electromagnetic calorimeter's channels are currently operational -- but its keepers think it can do better, working on a less than reliable connection that has the preshower down to a paltry 97-percent. Naturally, they've cracked the thing open and thankfully given us a peek inside the beast.
Rovio and CERN teaming up on education: hopefully the Angry Birds help us this time [update]
The last time CERN and an angry bird met, it didn't end so well: the Large Hadron Collider overheated after a feathered creature reportedly dropped its breakfast on outdoor machinery. Things should go much more smoothly this time around, with CERN and Rovio partnering on an educational initiative that will be unveiled in full at the Frankfurt Book Fair on October 12th. Although the two are shy on just what's entailed beyond the presence of some Angry Birds material at the event, the union will mark the start of Rovio's learning brand and likely represent more in the long run than another Angry Birds Space tie-in. We're mostly wondering if subatomic physics research will explain why we still can't three-star some levels in a physics-based game. Update: Rovio and CERN announced "Angry Birds Playground" this morning, which the company describes as, "a learning program for 3- to 8-year-olds based on the Finnish National Curriculum for kindergarten." In so many words, CERN and Rovio are partnering on an educational initiative aimed at young children which employs the iconic Angry Birds characters. It's unclear whether the initiative will spawn games or books or ... what exactly, but there you have it.
Alt-week 8.4.12: buckyballs, bosons and bodily fluids
Alt-week peels back the covers on some of the more curious sci-tech stories from the last seven days. Remember when we told you last week that we live in a strange world? Well, we had no idea what we were talking about. Seriously, things are about to get a whole lot weirder. High school is certainly a head-scratcher, no matter how old you are, but the mathematics of social hierarchies can't hold a candle to the mysteries of the buckyball. And, if the strange behavior of the familiar carbon molecule isn't enough for you, we've got an entirely new molecule to contend with, while the once-elusive Higgs Boson is getting us closer to unlocking the secrets of the universe. It's all pretty heady stuff, which is why we're also gonna take a quick detour to the world of human waste. This is alt-week.
CERN confirms existence of new particle consistent with Higgs boson (video)
Physics' big announcement had more in common with a leaky product launch than the serious business of re-writing the science books. But slack asset management aside, it's official: a new boson has been observed with a standard deviation of 5 (confidence of 99.9%). The highly anticipated announcement came this morning direct from CERN's press conference (via ICHEP in Melbourne,) and is the result of an intense, ongoing search for the elusive particle. The observation is of a boson particle with a mass of 125.3 ± 0.6 GeV, at a significance of 4.9 sigma. Joe Incandela -- giving the presentation -- said that this is "In agreement with the standard model at 95% confidence range." The boson is the heaviest ever found, and although this is still a preliminary result, it's by far the strongest case yet for the existence of the elusive Higgs. The sought-after particle is essential for supporting the current understanding of sub-atomic world, and its bearing on nuclear, and electromagnetic interactions. The next stage will be to determine the exact characteristics of the new particle and whether it matches the expectations of the Higgs, or is it in fact something more "exotic." This part will take much more time, but for now, a (very) small, but important piece of the puzzle has been found. Update: We're sure you've got many questions, and CERN apparently anticipated this. Check out the more coverage link for a helpful FAQ about everything Higgs. [Image credit: CERN]
CERN update on its search for Higgs boson starts at 3AM ET (video)
The cat would appear to be out of the bag, but if you must find out about the status of the Higgs boson search ASAP, check the video stream (embedded after the break) as CERN scientists reveal whatever it is they've found. The webcast is scheduled to kick off at 2:55AM ET, as a prelude to this year's ICHEP particle physics conference in Melbourne. Whenever the announcement comes we'll be sure to let you know, check the links below for more information. Update: So yeah, they've found a new particle "consistent with Higgs boson," check out all the details here.
Higgs boson just may, possibly, more or less be proven to exist by ATLAS and CMS teams
We had a false alarm over the possible discovery of the theory-unifying Higgs boson last year, but a bit of poking and prodding in subsequent months may well have given us much more definitive evidence of the elusive particle. According to some rare rumors emerging from Nature, both CERN's ATLAS and CMS detectors have seen particle decay signals suggesting the existence of Higgs to within a 4.5 to 5 sigma level of proof -- in other words, very nearly concrete evidence. That's not quite the 5-plus needed to settle the matter, but it's to a much higher level of certainty than before. As if to add fuel to the fire, ScienceNews even located a briefly posted, CERN-made video (sadly, since pulled) saying bluntly that the CMS team had "observed a new particle." Whether or not there's any substance is another matter. Nature hears that scientists are supposedly still working out what to say at an event on Wednesday, while CERN has made the slightly odd claim to ScienceNews that the yanked video is just one of several pre-recorded segments made to cover possible outcomes -- you know, in that "Dewey defeats Truman" sort of way. Unless the scientists have to go back to the drawing board, though, the focus from now on may be more on learning how Higgs behaves than its very existence. Any significant truth could see researchers proving the validity of the standard model of physics just as we're firing up our Independence Day barbecues.
Large Hadron Collider affected by full moon, ocean commiserates
Large Hadron Collider not running properly? If you've read the docs and restarted it, check for a full moon. After noticing fewer particle collisions while on her shift, Pauline Gagnon reached out to a control room operator who casually explained that they adjust beam alignment during full moons. Yes, the tide-producing orbit of Earth's satellite tugs the LHC's inner workings ever so slightly askew. Though minute, the changes add up over the collider's 27km circumference and are picked up by monitoring equipment sensitive enough to measure elementary particles. However, Luna isn't the only thing that affects the accelerator -- the water level in Lake Geneva and passing high-speed rail trains also do the trick. Will your hand react differently to the LHC's beam under a Harvest Moon? Probably not. In any case, hit the source for the scientific details.
CERN scientists explain what would happen if you put your hand in the LHC's beam (video)
Sure, concerns about the Large Hadron Collider creating a world-destroying black hole may have been more or less put to rest, but there's still plenty of pressing questions that remain unanswered. Like, what would happen if you put your hand in the beam? The folks from Sixty Symbols recently asked some physicists that very question and got some rather puzzled responses, so they went straight to CERN itself to get a definitive answer. You can see that in full after the break, but the short version is that it's something like the force of a moving aircraft carrier concentrated down to a laser-like one-millimeter-wide beam (accompanied by a wider beam of particles that would irradiate your entire body). Bad news. As they're quick to point out, though, actually getting anywhere near the beam is virtually impossible.
CERN crew takes to Google+ for live Hangout
Got questions for CERN crew? We know we do. For instance, if a Higgs boson falls in the woods and no one is around to hear it, does it still create a miniature black hole that swallows the Earth and destroys us all? Well if you've got queries for the folks working the LHC, attempting to unlock the secrets of the universe then hit up the source link for a live Hangout at that most nerdy of social networks Google+. The conversation starts at 1 pm eastern time.
Large Hadron Collider to increase beam energy: Higgs boson can run, not hide
We've seen the Large Hadron Collider running at a record-breaking 7 TeV for short periods, but now CERN is turning it up a notch (to 4 TeV from 3.5) for the rest of the year. The decision comes after an annual performance workshop last week in Chamonix and a report from the CERN Machine Advisory Committee (CMAC). The increase may seem modest compared to the knee-trembling levels of 7 TeV, but it's all part of a broader optimization strategy. Scientists state the new approach should increase the data collected in 2012 to 15 inverse femtobarns -- a three-fold jump from 2011. Even more encouraging is a statement from CERN's Research Director, Sergio Bertolucci, who claims that we should finally know for sure about the existence of the Higgs boson -- either way -- before the LHC enters a temporary shut-down period at the end of the year. Beam yourself over the break for the full press release.
LHC discovers 'particle', starts repaying back that five billion
The Large Hadron Collider at CERN was built to discover new life forms and new civilizations particles to complete the Standard Model of physics, of which the Higgs-Boson is only a part. The $5 billion project has finally found something previously unseen, according to the BBC. ATLAS has picked up Chi-b 3P: a Boson (building block of nature) Meson comprised of a "beauty quark" and a "beauty anti-quark," bound together with a strong nuclear force -- believed to exist in nature, but never seen until now. Yesterday's discovery is so new, it hasn't even had a sigma rating yet, but we don't expect CERN to confirm the find until its next two hour keynote. Update: The initial report described the particle as a Boson (elemental force carriers), it is in fact a Meson (which comprise of a quark and an anti-quark).
Caltech sets 186Gbps Internet speed record, makes our 5Mbps look even more inadequate (video)
Did you know that the Large Hadron Collider at CERN has already produced 100 petabytes of data that needed to be sent out to labs across the world for analysis? Pushing that amount of information across the Internet is a gargantuan task, which is why Caltech teamed up with the Universities of Victoria, Michigan and Florida (International) amongst others to try and break the internet speed record. Using commercially available gear (including Dell servers with SSDs), it was able to push 98Gbps and pull 88Gbps down a single 100Gbps fibre-optic connection between the Washington State convention center in Seattle and the University of Victoria computing center in British Columbia. Head on past the break for a video that shows you how it was done and why it probably won't be commercially available in time to super-size your Netflix queue.
CERN: 'Don't believe the Higgs-Boson hype' (update: not yet)
CERN is pouring cold water on the rumor it's gonna announce the discovery of the Higgs at today's seminar in Zurich. For the uninitiated: the Higgs-Boson is the particle that is believed to give all things mass: it surrounds us, penetrates us and binds the galaxy together. The scuttlebutt is that the ATLAS sensor picked up a Higgs with a mass of 125GeV (gigaelectronvolts) and rated at three-point-five-sigma -- a one sigma barely warrants a mention, a five-sigma is a bona-fide scientific discovery. CERN hasn't confirmed or denied anything, claiming it's still got five inverse femtobarns worth of data (roughly 5 x 70 x 10^12 of individual collisions) to examine before it can be sure, so just chuck the one bottle of champagne into the refrigerator -- better to be safe, eh? Update: Looks like we don't need to bust out the bubbly, after all. The conclusion from the two-hour presentation is that the ATLAS detector has been able to narrow down the region it believes the Higgs is in to 115.5GeV to 131GeV and that any discovery so-far only has a rating of two point three sigma. The CMS is similarly inconclusive, with results bobbing around the two sigma region. In short, whilst they know where they should look, they haven't been able to find one -- yet.
Pour one out for the Tevatron particle accelerator, because it's shutting down today
The eyes of the physics community are collectively fixed upon Illinois today, where, later this afternoon, researchers at Fermilab will shut down the Tevatron particle accelerator... for good. That's right -- the world's second-largest collider is being laid to rest, after a remarkable 25-year run that was recently halted due to budgetary constraints. Earlier this year, Fermilab's scientists and a group of prominent physicists pleaded with the government to keep the Tevatron running until 2014, but the Energy Department ultimately determined that the lab's $100 million price tag was too steep, effectively driving a nail through the accelerator's subterranean, four-mile-long coffin. First activated in 1985, the Tevatron scored a series of subatomic breakthroughs over the course of its lifespan, including, most notably, the discovery of the so-called top quark in 1995. Its groundbreaking technology, meanwhile, helped pave the way for CERN's Large Hadron Collider, which will now pursue the one jewel missing from the Tevatron's resume -- the Higgs boson. Many experts contend that the collider could've gone on to achieve much more, but its ride will nonetheless come to an inglorious end at 2PM today, when Fermilab director Pier Oddone oversees the Tevatron's last rites. "That will be it," physicist Gregorio Bernardi told the Washington Post. "Then we'll have a big party."
CERN's LHC@home 2.0 project simulates a Large Hadron Collider in the cloud
"You break it, you bought it," came to mind when researchers at the Centre for European Nuclear Research (CERN) announced the LHC@home 2.0 project, giving us regular Joes access to the Large Hadron Collider. OK, we kid; the reality is that much like SETI@home and Folding@home, a whole group of volunteering home computers link up together, and while idle they quietly help simulate LHC particle collisions according to CERN's theoretical models. Scientists there then compare these results with those from actual LHC experiments in order to check for any instrumental or theoretical errors, thus potentially speeding up the mission to find the God particle in a low cost manner. Besides being a great way to get your science on, the cloud-based program also makes CERN's resources (like crisis mapping and damage assessment) available to researchers in developing nations that may not to be able to afford the accelerator's $6 billion dollar price tag -- but nowadays, what nation can?
