Monday, 11 January 2010

MMX

Welcome back after winter holidays! In the meantime the year 2009 has gone to past along with the whole damn decade. Nobody here is going to shed a tear for the noughties - definitely the most depressing decade in the history of particle physics. It closes the balance with *zero* major experimental discoveries, while particle theory has also produce little to write down in history books. The optimistic conclusion is that from this point things can only get better :-)

So what good do I expect in 2010? This year is going to be very special, in that we have two particle accelerators at the high energy frontier. Such a situation occurs for the first time in my life, I mean life as a physicist. Hopefully not for the last time...

All eyes are of course are turned toward the LHC. After the Baby Hadron Collider (BHC) phase last year, following the Aborted Hadron Collider (AHC) in 2008, this year the machine enters the difficult Coming-of-age Hadron Collider (CHC) phase. Even though discoveries are highly unlikely at this stage, we will be following with mouths wide open each step toward becoming the full-fledged LHC: first 7 TeV collisions, first inverse picobarns acquired, first W and Z bosons, and finally first top quarks on the European soil. Meanwhile, the Tevatron does not rust yet. The most fascinating is of course its quest for the Higgs: what mass range will they exclude, will they see a bump somewhere. And, one never knows, one of its many new physics searches may finally bring exciting results.

However, as we already got used to in this century, discoveries are much more likely to literally fall from the sky. End of last of year, the CDMS collaboration decided to go down in flames and announced a detection of statistically insignificant but thought-provoking two scattering events that could be triggered by dark matter particles. This year a much more sensitive dark matter detector called Xenon100 begins taking data. If any of the two CDMS events was really due to dark matter, Xenon100 should grab a discovery by this summer. That is definitely the most awaited result of the year.

Up in the sky, the Fermi gamma-ray telescope is still alive and taking data. This year should bring an answer if the haze - a population of energetic electrons and positrons in the center of the galaxy that is difficult to account for by astrophysical sources - really exists. Moreover, Fermi is continuing its search for subhalos - small satellite galaxies made entirely of dark matter that may glow in gamma rays due to dark matter annihilation. Deeper in space, the Planck satellite is sitting at the Lagrange point L2 and making precise measurements of the Cosmic Microwave Background since September last year. If all goes well we should have the first results this year, and we eagerly expect Planck's measurement of the CMB polarization that should greatly surpass in precision the polarization data of its predecessor WMAP. As usual, astrophysics will probably not bring a clear cut fundamental discovery, but may give us something to think about.

So, lots of things to get excited about, lots of rumors to spread. Even if the year 2010 will not turn very fruitful, at least it should not be boring.

12 comments:

Physicsphile said...

Jester,

From the conference talks I have heard recently, PLANCK will only publish its first results at the end of 2012.

Jester said...

I think that at the end of 2012 they are supposed to make their data public; I hope Planck publications will appear earlier than that. I interpreted this article: http://www.esa.int/SPECIALS/Planck/SEM5CMFWNZF_0.html
as a promise of some results this year, but I may be wrong. For WMAP it took 19 months from the launch to the first publication.

Anonymous said...

solar and atmospheric neutrino oscillations have been established around 2002

tulpoeid said...

Welcome back as well, I wish everybody a year with **more** posts of yours. ("Bhc" was so cut I almost purred, but what is mmx?)

Jester said...

SuperK announced the evidence for atmospheric oscillations in 1998. The solar oscillations were indeed pinpointed later, but it's fair to say that neutrino masses were established by the end of the last decade.

MMX is a number.

tulpoeid said...

! I blame it on the quotation marks on the comments page :)

Pawl said...

Welcome back!

Let's not forget Auger, which may not give clues about new particles but does relate to interesting high-energy physics.

De Bunker said...

What about B-physics? There's a zoo of unexpected X,Y,Z mesons/molecules/glueballs, and the \eta_b was discovered, not to mention pinning down the CKM mixing angles.

I wouldn't call them major discoveries either, but the naugties weren't totally bereft of discoveries.

Jester said...

Definitely, there has been a lot of beautiful experiments in the past decade. But I meant precisely the lack of ground-breaking paridigm-shifting, or at least, fundamental discoveries. Not for the lack of trying...just no uck, hence the depression.

Sebastian said...

Happy new year to all, including the LHC, which soon will be back as tons of hadrons collider (THC).

Edward said...

Jester: I apologize for the potential redundancy, but I lack confidence in the email address I found for you. I'd like to invite you to join FoS. Drop me a note if you're interested or have any questions. Cheers.

Anonymous said...

CDMS goes "down in flames"? I'm sorry, but that's absolutely ridiculous. They ran a solid experiment and reported what they saw - it's not like they can help having seen two events! Don't blame the experimentalists because the theory rumor mill decided to go off the deep end...