Standard Model Flawed? Subatomic Particles' 'Misbehavior' Pokes Holes In Reigning Physics Theory

By: Clara Moskowitz, LiveScience Senior Writer
Published: 06/18/2012 05:27 PM EDT on LiveScience

The reigning theory of particle physics may be flawed, according to new evidence that a subatomic particle decays in a certain way more often than it should, scientists announced.

This theory, called the Standard Model, is the best handbook scientists have to describe the tiny bits of matter that make up the universe. But many physicists suspect the Standard Model has some holes in it, and findings like this may point to where those holes are hiding.

Inside the BaBar experiment at the SLAC National Accelerator Laboratory in Menlo Park, Calif., researchers observe collisions between electrons and their antimatter partners, positrons (scientists think all matter particles have antimatter counterparts with equal mass but opposite charge). When these particles collide, they explode into energy that converts into new particles. These often include so-called B-bar mesons, which are made of both matter and antimatter, specifically a bottom quark and an antiquark. If that wasn't too much of a headache, this process has the impenetrable moniker "B to D-star-tau-nu."

The BaBar researchers were looking for a particular decay process where B-bar mesons decay into three other particles: a D meson (a quark and an antiquark, one of which is "charm" flavored), an antineutrino (the antimatter partner of the neutrino) and a tau lepton (a cousin of an electron). [Graphic: Nature's Tiniest Particles Explained]

What they found is that this process apparently happens more often than the Standard Model predicts it will.

"The excess over the Standard Model prediction is exciting," BaBar spokesperson Michael Roney of the University of Victoria in Canada said in a statement. "But before we can claim an actual discovery, other experiments have to replicate it and rule out the possibility this isn't just an unlikely statistical fluctuation."

While the BaBar findings are more sensitive than previous studies of these decays, they are not statistically significant enough to claim they present a clear break from the Standard Model.

To confirm the findings, more data will be needed from other experiments, such as the Belle project at the High Energy Accelerator Research Organization (KEK) in Tsukuba, Japan, which also produces B mesons.

"If the excess decays shown are confirmed, it will be exciting to figure out what is causing it," said BaBar physics coordinator Abner Soffer of Tel Aviv University. "We hope our results will stimulate theoretical discussion about just what the data are telling us about new physics."

The BaBar experiment observed particle collisions between 1999 to 2008, but physicists are still analyzing the data. Researchers from the team presented their findings at the 10th annual Flavor Physics and Charge-Parity Violation Conference in Hefei, China, and detailed them in a paper submitted to the journal Physical Review Letters.

Follow Clara Moskowitz on Twitter @ClaraMoskowitz or LiveScience @livescience. We're also on Facebook & Google+.

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rxspence

45 Fans

08:57 PM on 06/25/2012

the flaw is the particle reference

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Nicholas Warner

27 Fans

08:28 AM on 06/24/2012

I find your report frustrating because it has lots of words but lacks the only piece of data that will give it meaning: How many sigma on the signal? In politics it is like reporting at length on a survey that puts President Obama 30% in the lead above Romney. To give it meaning you need the sample size/margin of error. Was it a survey of 1000 people with a 3% margin of error or a survey of 10 people with a 30% margin of error?

In particle physics the most significant datum apart from the observation itself is the confidence expressed in terms of the sigma value of the measurement. This figure is sadly lacking from your piece and you would do a service by explaining its importance. Please do this before you start reporting about ICHEP and the discovery/or not of the Higgs.

The Science News report on the BaBar experiment has: "While the level of certainty of the excess (3.4 sigma in statistical language) is not enough to claim a break from the Standard Model the results are a potential sign of something amiss and are likely to impact existing theories....."

That is good science reporting. BaBar's press release also says 3.4 sigma. There have been quite a few 3 sigma measurements that ultimately went away. Only the desperate publish results with sigma less than 3 and it requires 5 sigma before scientists will begin to change their thinking.

SwiftJonathan

331 Fans

03:15 AM on 06/25/2012

3.4 sigma is a fairly strong signal, assuming normal distributed statistics. It's over 99.9% confidence level, if I am not mistaken. If a 3+ sigma measurement "goes away", it's more likely because the statistics is not following a normal distribution, in which case, of course, the specification of the statistical error in this way is not even meaningful.

The bigger issue, of course, is the question, "Which version of the standard model are we talking about?". Are we certain that there are no possible tweaks that one can do to the model which could potentially incorporate this measurement, too?

12:23 PM on 06/25/2012

Not really. There have been examples of 3 sigma signals subsequently disappearing in particle physics. It is typically because the initial analysis involved making fiducial cuts on the data and thereby biasing the result. Subsequent data then shows this bias and typically the signal goes away. A carefully analyzed 3 sigma signal is interesting but the standards of proof in particle physics typically require 5 sigma.
Incidentally, the standard model is the standard model and then there are extensions of it, tweaks if you wish, but a statement about the standard model has precise meaning and if this sigma holds up then the standard model may be incomplete, which is very interesting.

There are More Comments on this Thread. Click Here To See them All

cvou2000

8 Fans

06:33 PM on 06/23/2012

Just when the scientists think they have it all figured out, they are proved to be wrong. Can't wait for them to meet their Creator and realize what a lie evolution is.

EntanglementTrick

words the birds call cheap...

97 Fans

07:58 PM on 06/23/2012

well, you better just wait... ;p

scientists do not think that they have it all figured out... I think that is the point.

02:34 AM on 06/24/2012

As compared to religious trolls on science blogs? I wonder which deity is known to let them through the pearly gates.

:-)

Sunwyn Ravenwood

Farewell

1148 Fans

05:10 PM on 06/23/2012

The universe is an illusion. Actually, we are all just avatars in the most complex video game ever developed.

HUFFPOST SUPER USER

jessjesskk

Benevolent Zombie Power

267 Fans

10:27 AM on 06/24/2012

with no developper ;)

CSDofNM

I speak lolcat

796 Fans

02:26 AM on 06/25/2012

That you can see.

Does Microsoft Office know that Microsoft exists?

Does Linux know Linus?

How self aware do you demand any simulation (or Universe) to be?

08:19 AM on 06/25/2012

We are just making it up as we go along.

03:06 PM on 06/23/2012

Since we are at it. The Wikipedia page about the standard model is a pretty good overview. If you already know what it is, it's sort of a good cheat sheet. If you don't know what it is, it's not enough to learn about it, though.

Not all physics entries on Wikipedia are equally good, though. Our friend rx has linked us to one about electromagnetic radiation that is obviously written by amateurs, probably ones who belong to the many "deifiers of Nicola Tesla" church.

02:27 AM on 06/25/2012

Then people who know should fix it. Wiki is the property of all, it is only as good as we make it.

03:22 AM on 06/25/2012

Did you ever try to "fix" a wikipedia article held hostage by a group of incompetent editors? Good look. As soon as you fix it, they will undo all your changes. I wouldn't waste my time on something as hopeless.

Having said that, I love wikipedia. But I only use information on it that I can actually verify against other sources and that passes my own bullshit meter.

:-)

edva

Capitalism vs Humanity

1172 Fans

10:51 AM on 06/23/2012

There are an infinite number of points between any two points. An Infinitely large space existing within an infinitely small space. That is the key. Use it wisely.

Reality always bites

Sometimes just a bit peckish

234 Fans

02:48 PM on 06/23/2012

Ithinkiunderstand. Use the space key wisely.

03:03 PM on 06/23/2012

That is also the key problem of every single theory in physics. They all have divergences because of this mathematical property. It is not clear that nature has this property in reality. Personally, I don't think it does. If it did, it should show very bad divergences in experiments and it simply doesn't.

03:20 PM on 06/23/2012

Pi?

Vatkpsmfrmfloppn

Somethin' is floppin somewhere!

52 Fans

10:44 AM on 06/23/2012

Mr. Swift wants to own this page so he can enlighten all of us to the myriad of links he followed from Wikipedia in order to master the subject. He has become quite the expert. He is also without a doubt a lastwordian expert in all things "educational". He even posseses a psychic ability (sometimes questioned in science) to determine yours or anyone else's education and heterosexual status merely by analyzing your comments and opinions. As you can see, CERN must be down because he seems to have a lot of extra time to insult anyone questioning his vast intellect.

palindrom

946 Fans

02:12 PM on 06/23/2012

Yeah, he can be a bit full of himself.

But as someone with some training and experience in physics (though not nearly the amount of theory he's mastered), I can tell that he does know what he's talking about on this particular subject. He doesn't just regurgitate Wikipedia articles.

02:54 PM on 06/23/2012

Can you believe this guy? He's full of himself and his "I am clueless and you scientists don't know nothing" stance and then he is all upset when someone puts him in his place.

God, I am so sick of these people.

02:51 PM on 06/23/2012

Well, Vat, if you think that you can learn physics from Wikipedia, be my guest. Tell us all about it.

I am, by the way, not even close to knowledgeable about high energy physics. All I know is the little bit of theory and phenomenology that any experimentalist who has successfully built experiments needs to know. I can't calculate squat in the standard model. Maybe I could, if I took the time to learn the formalism, do the easiest calculations in quantum-electrodynamics. But that's it. Everything else is the work of thousands of people far more skilled than me.

I can honor that. I know how much effort goes into this research. I pay respect to these people. They are the people I respect.

You, on the other hand, show up with nothing but your imagined scientific insight and start producing hot gas. And THAT, my friend, I can't stand for the life of me.

You think I am insulting you? Then just imagine how insulting your empty hogwash is for all of those people who have made lifelong efforts to give you the chance to understand how nature works. And what do you do? You complain that someone makes a few fitting remarks about the lowness of YOUR commentary.

Go and learn this stuff for ten years, then come back and we'll have a discussion. And if you are halfway smart, then you have a good chance of outwitting me. That I wouldn't even mind.

10:07 AM on 06/23/2012

What are the limits of the standard model, even if we take the the symmetry and the generational zoo for granted? Neutrino masses and oscillation, CP violation, particle masses (that's what the Higgs is for), dark matter, dark energy, need for a background metric (inherited from QFT), total absence of gravity and a slew of technical concerns.

These limitations are known. They don't have to be "discovered" in experiments. We are doing these experiments exactly because we know these limitations, not because we want to be surprised by them. Each and every high energy physics experiment is, indeed, a well defined set of questions that goes beyond the standard model. We already know what's inside the model. That was the research done in the last generation of experiments.

02:39 AM on 06/25/2012

Don't forget mass. The Standard Model doesn't have a "model" for mass. It is hoped the Higgs model does work, and the equations also nicely describe some weak force interactions that needed fixing.

But that is the basis of the Standard Model. It really is a backfit of equations to data. Sometimes the equations can be "run" to produce results to give expected values, such as the limits on the mass of the Higgs. But in a very real sense, those equations do not "predict" anything, nor are they the solution to anything. They are little more than a computer program, full of bugs, which always has to be patched when the applications interface with Universe 1.0 breaks down. The models are developed elsewhere, then fitted to the data, which has produced astounding accuracy (over 17 decimal places of precision in many cases).

When we understand neutrino masses (and mass in general), CP violation, particles equivalent to observed dark matter, then the Standard Model will be patched again, as it has almost every year since it was invented. It is the most glorious kludge in science, and a wonder of combined intellect, but very, very far from infallible. It is only as good as our current understanding, and it often helps make that understanding better.

03:51 AM on 06/25/2012

"The Standard Model doesn't have a "model" for mass."

Unfortunately it's not even that simple. It's not just the Higgs that creates mass. It's every type of self-interaction that leads to an effective mass term. The effective mass of quarks and gluons inside the nucleons, for instance, is not generated by the Higgs alone, but also by their own interactions. And since you have confinement in the color force sector of the model, this effective mass is not reducible.

So, in essence, while the model does not contain mass explicitly, it does contain some hints of the kinds of mechanisms that can generate effective mass by interaction. But it's even more complicated than that.

We know from general relativity that mass is tied to the structure of space-time. But space-time in quantum field theory is a (flat) pre-geometry. If nature, as one has to believe by taking general relativity seriously, creates mass and space-time through the same unknown mechanism, then QFT is factually incapable of predicting the true source of mass, because it has to be supplied with a pre-geometry, itself.

The other attempts at getting rid of this problem, string theory, loop quantum gravity etc. have, so far, not been able to solve the riddle, either. It also means that experiments like LHC are not meant to just polish the constants of the standard model some more, they are intended to replace it with a completely different framework, altogether.

What is the standard model? It is a fit of a QFT with three generations of particles subjected to three different forces: weak force, electromagnetic force, strong or color force. Each force is mediated by a set of gauge bosons: photons for electromagnetic, W and Z for weak and gluons for the color force. In addition there is a Higgs mechanism to account for the rest masses of some of the particles.

The standard model does not explain where any of these particles come from. It does not tell us their masses or the reason for their charges. It's very much like a periodic table of elements plus a set of possible reactions with reaction energies, i.e. structurally it is little better than chemistry in the late 19th century. Chemists knew full well, back then, what happens when you mix X with Y. Particle physicists know pretty well what happens when you collide electrons with positrons or protons with antiprotons. But that's pretty much all we know. We don't know where all of these things come from. Neither did the chemists until the discovery of quantum mechanics, which can neatly explain the structure of the periodic table from first principles.

The holy grail in particle physics is the theory which explains the structure of the standard model from first principles. It's not the standard model itself.

07:45 PM on 06/22/2012

The biggest hole in the "standard model" is the assumption that humans are going to figure it all out. It would be much easier to figure out how a being of spirit decays into mortality through quantum observation O'eaters of the apple. That said, it might really be the questions we ask that cause the observations to take place that changes the quantum state. They will be asking questions for a pretty long while space timers so don't get your hopes up and keep the grant money coming.

09:16 PM on 06/22/2012

That's not a hole in the standard model, but in your education.

:-)

06:11 AM on 06/23/2012

Typical canned response when emotionally impaled by a strange quark or boson. I get it o' hostile apple eater.

janmB

loves life

920 Fans

06:21 PM on 06/22/2012

It must be wonderful to be able to understand this fully.

02:41 AM on 06/25/2012

No one fully understands quantum theory. At least that is what Richard Fenyman said, and I've learned to take him at his word.

shylove2

warfare state is pathological

218 Fans

03:15 PM on 06/22/2012

The hardest particel to find is the particle of truth... but chasing ones own tales is a good living as long as society can afford it... we only care hoping that some new that can be weaponized could come out if it all...or a new way to shoot ourselves full of holes while scanning to find our minds...

05:11 PM on 06/22/2012

I agree. Spending money on the education of folks who are pissed that others know more than them was a complete waste of my taxpayer money.

:-)

Valmiki2

94 Fans

02:28 PM on 06/23/2012

See Obama for wastage of money. That's a real particle of waste.

08:08 PM on 06/23/2012

what is truth? Isn't truth a matter of subject?

This science stuff is some of the best things to ever happen for people. I agree that there are people interested in weapons, people who we could do without.. if only we could do without their money-machine....

lori279187

Absolute power corrupts absolutely.

73 Fans

03:14 PM on 06/22/2012

I swear, I try and try to understand physics and have had some small breakthroughs, but like with this article, after reading a couple of lines, I seem to just get a buzzing in my brain and just can't pay attention any more. (How was that for a run on sentence? lol)

05:13 PM on 06/22/2012

These articles are the worst thing you can do to yourself. Not only are they inaccurate and incomplete, they also don't contain the least amount of material that you could learn from.

Now, in case of particle physics, I am afraid, if you want to understand anything, you have to go to school. Serious school. At least a four year curriculum in physics. And that will just be barely enough to get you started in high energy physics.

Pandoras Folly

This Micro-bio is of legendary quality

221 Fans

05:30 PM on 06/22/2012

and a graduate degree in high energy physics is good start to begining to understand the hard stuff.

09:00 PM on 06/22/2012

No. I just try and understand some of the basics. Took some physics in college. Not my bag. Chemistry, yes. Bio, yes. Physics, no, not so much.

06:29 PM on 06/22/2012

If you play golf ....it is a study of matter (golf-ball) and its motion through spacetime (getting the ball airborne ) along with related concepts such as energy and force when you have to judge or engage distance, timing and projectory. So it's a form of mental--psysics....I chose to look at it that way.

09:06 PM on 06/22/2012

janmB ---- You just pointed out every reason I don't understand it. I can get the matter moving through spacetime, but when you have to add more stuff for me to think about, energy and force, it's over. Thank-you both (you and SwiftJonathan) for trying.

03:11 PM on 06/22/2012

I think the greatest real "flaw" of the model is still its structure, which can not be changed to accommodate background free physics. But that's not really the standard model's fault. That's the underlying quantum field theory that is struggling. I don't know if there is a gracious way to mend this without basically throwing most of the structure of QFT away. Part of the people who are working on it don't seem to think so. If they are right, that would also basically eliminate the standard model itself.

And having said all of that, I am not a great friend of phenomenological models like the standard model, myself. But it is the best we have right now... and one does have to give intellectual credit to all the people who have helped with its development on both the theoretical and the experimental side. These are enormous accomplishments.

07:53 PM on 06/22/2012

It is truly tremendous. I believe this science will lead to much more effecient insect killers. Might even lead to a non-carcinogenic cigarettes and alcoholic beverages that don't damage the liver.

09:33 PM on 06/22/2012

Well, someone should investigate what has wasted your mind. A mind is such an awful thing to waste.

:-)

In this very sense the standard model is less plagued by "flaws" as it is plagued by its rough edges around its limits, which, thankfully, have been growing over the decades to incorporate ever more phenomena and many of which have given way to deeper insights.

It is a much smoother (and larger) model now than it was at the time of its inception. It is fairly self-consistent, albeit of relatively little ab-initio predictive value. The lattice QCD folks will, probably rightfully, disagree with that, though, and I do have to mention them for their really hard earned victories over the last three decades... they did way better than many would have given them credit for initially.

In essence, it would be better to say that experiments like BaBar, LHCb etc. are basically being used to polish the limits of the standard model even further. Unless something in this data breaks it really hard, and I would have to understands the details what that could be, the standard model is probably going to evolve continuously with this data for quite some time to come.