Higgs boson announcement live: Cern scientists discover subatomic particle

All the latest developments from Cern, home of the Large Hadron Collider, as scientists gather for a major announcement

What happens inside the Large Hadron Collider. Scientists at Cern, near Geneva, have this morning announced the likely discovery of the Higgs boson particle. Photograph: Cern

7.17am: Good morning all.

Two teams of physicists at the Cern laboratory near Geneva are preparing today to announce their latest efforts to discover the Higgs boson.

Participants take a rest early before the opening of the seminar. Photograph: Denis Balibouse/AFP/Getty Images

The elusive "God particle" has become the most sought-after particle in modern science. Its discovery would be proof of an invisible energy field that fills the vacuum of space, and excitement in the scientific community is at fever pitch.

Peter Higgs, the Edinburgh University physicist who proposed the idea of the particle in 1964, is flying in to Geneva, as are two other men who published similar theories at around the same time: François Englert, professor emeritus at the Free University of Brussels (ULB) in Belgium, and Tom Kibble, professor emeritus at Imperial College London.

There have been rumours, speculation, and, last night, even an apparent leak from the laboratory when a video announcing the discovery of a new particle was accidentally posted on its website.

The Guardian's Ian Sample has flown to Geneva and I'll be live-blogging this potentially historic morning on this page.

7.38am: Now, two video links for your viewing pleasure.

This one is to Cern's own live stream from where the scientific session is due to start at 9am local time (8am British time) - and subsequent press conference - will be held.

And here is a video from the Guardian's own resident boffin, science correspondent Ian Sample. Heroically, he attempts to explain the Higgs boson by means of a tray from our canteen and some coloured ping pong balls.

British physicist Peter Higgs (right) arrives at the seminar. Photograph: Fabrice Coffrini/AFP/Getty Images

7.52am: Clapping for Peter Higgs, who has just arrived in the auditorium. Now, the anticipation mounts.

8.02am: And we're off. First up is Joe Incandela, the leader of the team using the CMS detector to search for new particles. He'll be followed by Fabiola Gianotti from the other team using the Atlas detector.

He says the results are "very strong, very solid".

8.13am: As Incandela speaks, the brilliant Ian Sample is live-tweeting from Cern.

8.21am: I'm not going to lie: this is a little above my GCSE Physics.

8.24am: Reuters has just posted a flash update that claims Cern scientists have discovered a new sub-atomic particle that could be the Higgs boson.

8.31am: Here's the Reuters take.

Scientists at the CERN research centre have discovered a new subatomic particle that could be the elusive Higgs boson, which is believed to be crucial in the formation of the universe.

"I can confirm that a particle has been discovered that is consistent with the Higgs boson theory," said John Womersley, chief executive of the UK's Science & Technology Facilities Council, at an event in London.

Joe Incandela, spokesman for one of the two teams hunting for the Higgs particle told an audience at CERN near Geneva: "This is a preliminary result, but we think it's very strong and very solid."

8.39am: Big applause

8.53am: The American physicist Sean Carroll is live-blogging this announcement over at Discover magazine.

His reflection from Incandela's presentation is:

Huge question ongoing: are we seeing a standard Higgs with a couple of statistical fluctuations, or are differences in different channels the sign of something new?

Easiest way to make different channels mismatch is to add new particles to your theory that couple to the Higgs, and enter as virtual particles that modify different decay rates.

Full employment for both experimentalists and theorists!

8.55am: Up now is Fabiola Giannotti, leader of the 3,000-strong group that works on the collider's five-storey Atlas detector.

Ian Sample wrote a little piece about her and her work at the LHC last year.

The appointment put her in the top ranks of a profession dominated by men. She came to physics from an education steeped in ancient Greek, philosophy and the history of art – she had also trained as a pianist at the Milan Conservatory.

But she ultimately chose physics to answer the big question of why things are as they are. "Physics is, unfortunately, often seen as a male subject; sterile and without charm or emotion," she told the Cern magazine. "But this is not true, because physics is art, aesthetics, beauty and symmetry."

9.00am: A welcome summary in layman's terms from Brian Cox

9.05am: AP's take on Incandela's presentation.

One of the two independent teams at the world's biggest atom smasher says it has found strong evidence of a new subatomic particle that looks like the one believed to give all matter in the universe size and shape.

Joe Incandela, leader of one of the teams, told scientists at the European Center for Nuclear Research, or CERN, that the data has reached the level of certainty needed for a discovery.

But he has not yet confirmed that the new particle is indeed the tiny and elusive Higgs boson, popularly referred to as the "God particle."

9.09am: The New Scientist, reporting from the auditorium, says Cern has pre-empted Gianotti. And the results from ATLAS also look exciting

9.14am: "Both experiments observe a new particle in the mass region around 125-126 GeV," confirms a press release from Cern.

Gianotti- who is still speaking- is quoted in this release as saying:

We observe in our data clear signs of a new particle, at the level of 5 sigma, in the mass region around 126 GeV. The outstanding performance of the LHC and ATLAS and the huge efforts of many people have brought us to this exciting stage, but a little more time is needed to prepare these results for publication.

Incandola, from CMS, adds:

The results are preliminary but the 5 sigma signal at around 125 GeV we're seeing is dramatic. This is indeed a new particle. We know it must be a boson and it's the heaviest boson ever found. The implications are very significant and it is precisely for this reason that we must be extremely diligent in all of our studies and cross-checks.

And Sergio Bertolucci, research director of CERN, says:

It's hard not to get excited by these results. We stated last year that in 2012 we would either find a new Higgs-like particle or exclude the existence of the Standard Model Higgs. With all the necessary caution, it looks to me that we are at a branching point: the observation of this new particle indicates the path for the future towards a more detailed understanding of what we're seeing in the data.

The results presented today are labelled preliminary, the statement adds.

They are based on data collected in 2011 and 2012, with the 2012 data still under analysis. Publication of the analyses shown today is expected around the end of July. A more complete picture of today's observations will emerge later this year after the LHC provides the experiments with more data.

The next step will be to determine the precise nature of the particle and its significance for our understanding of the universe. Are its properties as expected for the long-sought Higgs boson, the final missing ingredient in the Standard Model of particle physics? Or is it something more exotic? The Standard Model describes the fundamental particles from which we, and every visible thing in the universe, are made, and the forces acting between them. All the matter that we can see, however, appears to be no more than about 4% of the total. A more exotic version of the Higgs particle could be a bridge to understanding the 96% of the universe that remains obscure.

Positive identification of the new particle's characteristics will take considerable time and data. But whatever form the Higgs particle takes, our knowledge of the fundamental structure of matter is about to take a major step forward.

9.21am: First reaction from Peter Higgs has just landed in my inbox. According to a statement sent by Edinburgh University, the physicist says he is "astounded" at the speed with which the results have emerged and is preparing to celebrate.

Scientists at CERN are to be congratulated on today's results, which are a great achievement for the Large Hadron Collider and other experiments leading up to this.

I am astounded at the amazing speed with which these results have emerged. They are a testament to the expertise of the researchers and the elaborate technologies in place.

I never expected this to happen in my lifetime and shall be asking my family to put some champagne in the fridge.

Participants applaud after the presentation of the Atlas experiments. Photograph: Denis Balibouse/AP

9.23am: Gianotti is still presenting Atlas's results but the reaction is already pouring in. Here's are the first few paragraphs from Ian Sample's first take on today's momentous announcement.

There comes a time in a scientist's life when the weight of evidence can no longer be ignored. That moment came today for physicists at Cern, home of the Large Hadron Collider near Geneva, who announced overwhelming evidence for the obscure but profoundly important Higgs boson, the particle that sparked the greatest hunt in modern science.

In presentations given to a packed auditorium at the laboratory on Wednesday morning, and webcast around the world, the leaders of two research teams, who worked independently of each other, said they had spotted a new particle amid the microscopic flashes of primordial fire created inside the world's most powerful atom smasher.

Cern stopped short of claiming official discovery of the Higgs boson, even as many physicists conceded the evidence was now so compelling they had surely found the missing particle.

Formal confirmation of the discovery is expected within months, though it could take several years for scientists to work out whether they have found the simplest kind of Higgs particle that theories predict, or part of a more complex picture: for example, one of a larger family of Higgs bosons. The discovery of more than one kind of Higgs particle would open the door to an entirely new realm of physics.

9.29am: "#CERN" is trending worldwide. As is #Higgs, and #GodParticle (sorry), and ATLAS. No #Higgsteria yet though, despite a valiant effort by social media types.

9.32am: Today's discovery is "unbelievably exciting", according to Harvard physicist Lisa Randall.

She told the Guardian:

I really didn't expect this. They got enough data and improved analysis to the point where we know about a new particle months before I expected (based on
asking lots of people)! It is unbelievably exciting.

Tommaso Dorigo, a scientist on the CMS experimental team at Cern, had this evaluation for Ian over in Geneva:

Is it a Higgs boson or not? Well, it has been found using techniques tuned for the Standard Model Higgs. A different object might have stepped in, but it is quite unlikely in my humble opinion.

A representation of traces of a proton-proton collision in the search for the Higgs boson, released by Cern. Photograph: AFP/Getty Images

"I'm not done yet; there's more to come!" she laughs. She has these guys in the palm of her hand.

9.41am: Some physicists are being more certain about interpreting these results than others. For Professor Stefan Söldner-Rembold, Professor of Particle Physics at the University of Manchester, "there is no doubt that the Higgs particle exists".

Today we have witnessed a discovery which gives unique insight into our understanding of the universe and the origin of the masses of fundamental particles. There is no doubt that the Higgs particle exists and we now have to understand its properties and whether it behaves exactly as predicted by theory.

This discovery is the first milestone of the LHC physics programme and opens the door to many more exciting discoveries by the LHC experiments in the next decade.

9.44am: Rolf Heuer, Director General of CERN, offers this verdict:

As a layman I would say: I think we have it. You agree?

The audience claps. I think that's a yes.

9.46am: Heuer flashes up on screen a slide that says Cern have discovered "a particle consistent with the Higgs boson- but which one?"

So, while this is undoubtedly a milestone with "global implications", he says, it is also the beginning of a lot more research and investigation. But, he adds, "I think we can be very, very optimistic".

9.49am: Peter Higgs, who first proposed the idea of this boson in 1964 and is now 83, may have shed a tear or two there- a sight which seems to have got everyone else going too.

9.58am: Peter Higgs has just been asked to say a few words.

"For me it's a really incredible thing that it's happened in my lifetime," he said, giving his congratulations to everyone involved in what he described as a "tremendous achievement".

10.16am: Earlier I pointed out that four of the 10 worldwide trends on Twitter were Higgs-related. I erred. There were five- but one of them was Comic Sans.

Turns out that, instead of remarking on the incredible achievements of the physicists at Cern, some people would prefer to ridicule them for presenting their results in a funny font

10.18am: Press conference time. More layman's terms please!

First question goes straight to the point: "Have you found the Higgs boson or not?"

Heuer replies that, as he said earlier, in layman's terms, they have "got it".

But as a scientist I say 'what do we have?' We have a boson. Now we have to discover what kind of boson it is.

10.25am: For anyone who's just joined the fun, you can watch the live stream here.

10.28am: All the journalists are begging for layman's terms. Rolf Heuer of CERN is trying all kinds of inventive allegories to explain the discovery. Is it working? Not entirely sure.

10.31am: Were they surprised by how quickly they made this discovery? After all, points out one journalist, "supersymmetry" was what they were expected to hit upon first.

Yes, replies Heuer. Gianotti agrees, attributing the speed to the "impressive performance of the accelerator" and the experiments which have worked very well.

Incandela says that this discovery could actually help in the search for supersymmetry.

In fact, the existence of a Higgs-like boson actually is a very strong motivation for the existence of supersymmetry...We're going to try and hunt it down.

10.37am: Ooo, we're into Rumsfeldian territory here. A spokesman says they also want to go after the unknown unknowns.

10.38am: How did the leaders of Atlas and CMS feel upon completing this discovery? Like "walking on air", says Incandela.

It was a magnificent moment to see the reaction of the community.

Gianotti praises the "dedication, the competence, the talent" of everyone in her team, Atlas.

10.45am: John Ellis of CERN has emailed this evaluation to the Guardian's Ian Sample.

There is no doubt that something very much like the Higgs boson has been discovered. The strengths of the signals observed independently by CMS and ATLAS are completely convincing, and they are supported by data from the Tevatron experiments CDF and D0.

Now the emphasis will shift to verifying the properties of the particle that has been discovered: does it have spin zero? Does it couple to other particles proportional to their masses?

The discovery will open up a new era in particle physics, as we look for deviations from the properties expected in the Standard Model, and for other physics beyond the Standard Model that might be connected, such as the nature of dark matter.

Heuer has just had another valiant effort at explaining the science in terms a small child would understand.

How close is what they've found to the Higgs boson, asks a journalist? It's as if, he explains, you think you see your best friend- but is it your best friend or your best friend's twin? Basically: more work is needed. He concluded:

Ask me again in three, four years.

10.54am: We're asking commenters to help us explain the Higgs Boson. My colleague Hannah Waldram has passed me on these interesting contributions:

muscleguy:

It's like there has been a figure in black in the ballet that the other dancers can see so dance around and with but we can't see. We see the shape of the ballet but cannot, until now see all the dancers.

richardacre:

It's like zoologists trying to determine if they've discovered a new species of butterfly by looking at a meadow through binoculars. From 16 miles away.

Shiv Malik

Our very own Shiv Malik has also put his scientist's hat on to try to explain

One talking point is how reliable the results are. This is based on how certain physicists are about the data they have. The way this is normally measured is through standard deviation i.e. the 1-5 sigma that we've been hearing about.

This handy explainer graphically shows what deviation is on a usual distribution graph or a bell curve, where most results are based around the middle but there are also some extreme results at either end.

Something like plotting height amongst a big population of 35 year old males would give you a bell curve graph like this. Tall and short at either end but most people are say, 5 Ft 8". Five sigma from the standard deviation therefore means many steps away from the norm. In terms of height it would be say, adults males who are either 2ft or 7ft tall i.e. very unusual.

But now reverse engineer the exercise. Imagine you are looking at 7ft people and you want to know how likely it is that this is a strange result from the middle or the norm. How would you work this out? How would you come up with a number to represent this? Well, looking at the data, plotting the graph, you could say that 7ft adult males represent 5 sigma deviation from the norm, so you are pretty sure that this is an odd or unusual result and therefore worth being (statistically speaking) interested about. This is what those at CERN have been saying today.

11.00am: As the journalists in Geneva continue to beg the Cern guys for replies they can understand, here at the Guardian we are begging you to help us explain the Higgs boson.

My colleagues write:

Can you help us break it down into even simpler terms? If you're a scientist, a teacher or a physics fan with a knack for explaining big ideas and small particles, we're imploring you to help.

• How would you explain Higgs boson to a 7-year-old?
• What analogy best explains what's happening at Cern?
• Can it be described in 200 words?

11.09am: A bold Reuters journalist just asked them to provide their own metaphors for the Higgs boson. Alas. "The podium is metaphorless," replied Heuer.

British physicist Peter Higgs (right) speaks with Belgium physicist Francois Englert. Photograph: Fabrice Coffrini/AFP/Getty Images

11.18am: Ok, that's that. The press conference is over.

Throughout, Peter Higgs refused to make any comment other than to praise the achievement and to say he was making no further comment. He obviously didn't want to hog the limelight, which will only endear him further to his new legion of Twitter fans.

11.25am: On a lighter note, here's a storify of Twitter jokes about the Higgs boson as collated by Hannah Waldram.

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