Matter, Anti-Matter, and a New Subatomic Particle?

sciencehabit writes "Physicists may have finally figured out why the universe contains more matter than antimatter. The key lies in a flaw in the relationship between the two and a potentially new subatomic particle. 'Other researchers, however, say the results, published today in Nature, should be interpreted cautiously. It could all be an effect produced by run-of-the-mill particles'."

Re:Star Trekkin' Across the Universe

[JohnFluxx]

> Except in real life, they don't really invent a new particle too often, they just make one up and name it after something dumb like themselves and hope at some point it's proven that it's real, which the majority of the time it's not.

For example? Can you list some of these please?

A Non-Surprise

[DynaSoar]

I attended a lecture on the CP violation in B and anti-B meson decay at Virginia Tech in 1998. The theory and maths pointed to asymmetry in the binding force of the (respectively) anti-down and down quarks involved. The amount of asymmetry was calculated to be a few parts in a billion. It hadn't then been seen, but the exact nature of the experimental set-up had been worked out (that was the nature of the lecture). Now it has been seen. Now that it has, why pull an unknown particle rabbit out of the quantum hat? What happened to a perfectly good hypothesis derived from known factors which predicted exactly this?

Astronomers noticed an anomaly. They dreamed up dark matter to explain it. Actually, they dredged it up -- the concept had been applied to other phenomena and always found not to be involved if it even existed. Then they set about looking for other signs that matched the theory, and in a fit of circular reasoning claimed it supported the hypothesized existence of the dream-stuff. Now that they're getting away with it so well that The Teaching Company even has a 12 hour lecture series on it for sale, it's encouraging others to invent all manner of invisible widgetons to blame it on, because hey, anyone can do science, but how many people get to dream up something imaginary and get taken seriously? Dream-stuff is sexy even if it doesn't exist. It gets you noticed. It gets you published, and if the publication is more a question than an answer, well, it's invisible or massless or some other quality which makes it unseen by everyone except you and your imagination.

I'm not buying until I see how they dismiss the previous workable theory based on entirely known quanta that predates this supposed discovery by 10 years.

Re:Star Trekkin' Across the Universe

[Gromius]

I think thats a little harsh although has some grounding in reality. It is true that theoretically, there are many many theories out there which predict unobserved particles and one is invented almost every week. The Higgs for example, supersymmetry (SUSY) is another mainstream one. Simply put we have no idea whats going on except that the Standard Model seems to describe it amazingly well. However its incomplete, has many prob such as the baryon asymmetry one being discussed, then the many theories which try to solve these problems and all (or almost all) bring in new particles. This is the scientific method, we do an experiment, we note we dont full understand it and then we hypothesize a theory to explain it. We then test this theory to see if its correct and this is where most of the new theories fall down.

In particle physics right now, the problem is that we have a model, the Standard Model, which we know is incomplete (doesnt include gravity for a start) but it more or less explains every experimental result we've every produced (neutrino masses are argueably accommodated with some small extension). We lack experimental data to even give us a hint what might be beyond it and this has been the case for a long time. So theory has had nothing to do but invent crazy models and wait for the experimentalists to catch up (which we hope to do this year, it'll be exciting). Hence why you see a lot of crazy models around with zero experimental evidence supporting them.

The other problem is that we are all tired and sick of the Standard Model, we want to know whats beyond it so people really really want to find evidence of new physics beyond it. This means that people are quick to jump on small effects and claim its new physics which is probably where you are coming from. Usually they get shouted down by the rest of the quickly community but it does happen with alarming regularity (see pentaquarks, 160 GeV Higgs last year as two recent examples). Whats worse is that for something like the result in the article, its an indirect evidence in a QCD environment which basically means there are so many effects going on, this could easily be explained by the Standard Model. So basically nobody believes it for now. QCD is what binds mesons (such as the B+,B0) and baryons (such as the proton and neutron) together. Unfortunately, we cant solve it right now, except for high energies so often there are many effects which later turn out just because we make a mistake in our approximations in order to get a solution. Compare with the CDF Run I jet excess which later just turned out because QCD effects werent being taken into account. This is the reason that physicists wont believe anything which says new physics right now unless theres a clear unambiguous peak in a mass spectrum, ie make and detect a new particle in your detector. Now this could be genuine evidence but we've all been here before so I think the community takes the feeling that we'll wait for more supporting evidence and for people to offer up alternative explanations before we say its new physics.