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LHC Restarts High-Energy Quest For Exotic Physics 85

astroengine writes: It's official: After a long 27 month hiatus for upgrades and a 2 month restart, the world's largest particle accelerator is back in the particle collision business. As of 10:40 a.m. CET (5:40 a.m. ET), the Large Hadron Collider (LHC) was running at record-breaking energies and collecting science data. Physicists now expect the particle collider to run non-stop for the next 3 years. We are in a new era of high-energy particle physics where, for the first time, we don't exactly know what we'll find. "With the LHC back in the collision-production mode, we celebrate the end of two months of beam commissioning," said CERN Director of Accelerators and Technology Frédérick Bordry in a press release. "It is a great accomplishment and a rewarding moment for all of the teams involved in the work performed during the long shutdown of the LHC, in the powering tests and in the beam commissioning process. All these people have dedicated so much of their time to making this happen."
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LHC Restarts High-Energy Quest For Exotic Physics

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  • reach around for all Physicists, especially since the target is set so high.... as in "anything" or "nothing" at all.

    "we don't exactly know what we'll find" maybe our ass or maybe not

  • and stock up on grenades!
    • and stock up on grenades!

      You are not a preper, that' much is plain to see..

      Freeze dried and canned food, water filters, guns and ammo are more important.

  • 15 Petabytes (Score:5, Interesting)

    by avandesande ( 143899 ) on Wednesday June 03, 2015 @01:30PM (#49832997) Journal

    Apparently it will collect 15 petabytes a year.
    http://www.lhc-closer.es/1/3/1... [lhc-closer.es]

    Here is a picture of server room
    http://home.web.cern.ch/about/... [web.cern.ch]

    • by jandrese ( 485 )
      That's around 250 HDDs a year at current densities, or 600 tapes. That's not a trivial number, but for a large organization like the LHC it shouldn't be much of a problem. You could fit all of those hard drives in about 20 RU with room for redundancy [quantaqct.com] if you really wanted to. That's half a rack a year.
    • The make a quick assessment whether a particle shower is interesting, then store it for future analysis. The four detector complexes have up to 10K subdetectors each, different directions and energies. Then you propose what a certain decay sequence might look like and sift the trillion recorded explosions.

      For exeample there were several dozen possible decay paths for the Higgs, but only a handful were detectable in this setup. It took longer to analyze the data than run the machine.
    • Astronomy surveys, particle detectors, seismic surveys. The technology grows a factor of thousand every decade.
    • This looks like the server rooms of 1970. In 40 years all of this will take the space in a pocket at most.
  • The LHC will not start a chain reaction in the universe converting it all to a lower energy state and letting all the planets in all the solar systems turn to goo.

    It will not blow a hole in space-time and let all the matter get sucked thru the hole. It will not destroy gravity.

    I am not an atomic playboy as one of my critics labeled me colliding these protons to satisfy my personal whim.

  • by skelly33 ( 891182 ) on Wednesday June 03, 2015 @01:51PM (#49833225)
  • by Celarent Darii ( 1561999 ) on Wednesday June 03, 2015 @01:53PM (#49833243)

    Never thought I see to live these energies... and now for 3 years we will get some interesting effects.

    Actually what will be the most interesting is that after three years NOTHING HAPPENS, that is to say that our knowledge of Physics is fairly complete. However nature has a way of surprising us.

    • This is improbable. (Score:4, Informative)

      by tlambert ( 566799 ) on Wednesday June 03, 2015 @03:42PM (#49834375)

      Actually what will be the most interesting is that after three years NOTHING HAPPENS, that is to say that our knowledge of Physics is fairly complete. However nature has a way of surprising us.

      We have found particles at energies of x^1, x^2, and now with the W and Higgs, x^3. There's good reason within the standard model to believe that this progression will continue at least through x^4. It's fairly easy to see the energy ranges where the particles so far have clustered, and there really no rational reason that there won't be a cluster at even higher energies, based on the same Feynman-Dyson diagram solutions that resulted in use predicting the W and Higgs energy ranges. If you Monte Carlo at the higher energy ranges with the same constraints on the relativistically invariant pair production, the math shows particle spikes up to 10^5 (not that the LHC can hit those energies, but the math works...).

      • IAAPP, and I have trouble parsing your sentences.
        Can you give a reference for what you're trying to say?

        • Particle clusters seem to occur at exponents of baseline energies for what we consider to be ordinary particles. The exotic particles we've found have been at the higher end.

          If you look at the early work by Dr. Jay Phippen, you'll see the intentional constraints he places on the pair production is the solution set to 12 (actually, 11, one was an identity) Feynman-Dyson diagrams. I believe his thesis is on file at Utah State University. The initial computations were done at Los Alamos labs, back with the

    • It's going to produce interesting science for way more than three years. Remember that the tevatron shut down four years ago but physicists are still finding new and interesting stuff in the data it collected. I wouldn't be surprised if new discoveries came out of the LHC data for ten or even twenty years after shutdown.

    • by david_thornley ( 598059 ) on Wednesday June 03, 2015 @05:04PM (#49835109)

      Our understanding of physics is wrong. We know that. Quantum Mechanics and General Relativity don't work together. We have two exceedingly successful theories, at least one of which is wrong. In order to resolve this, we have to break something so we can get some clue as to what's really happening.

      Back around 1900, we were in a similar situation, with physics seeming to be nearly complete. It needed little more than explanations for black-body radiation and the failure of Michelson-Morley to find ether drift. Of course, these explanations turned out to be fairly involved.

      • by Anonymous Coward on Wednesday June 03, 2015 @07:36PM (#49836009)

        GR and QFT work very well together in the low energy limit, which goes right to -- and even through -- the event horizons of black holes.

        However, the most prominent pairing of GR an QFT -- semiclassical gravity -- cannot deal with arbitrary high numbers of loops. On the other hand, Wilson's EFT work showed very clearly that you do not need to consider arbitrary numbers of loops to have an effective field theory.

        The nature of the mathematical device that can probe beyond the UV limit of semiclassical gravity (or how far beyond it can probe) is not yet known, but there is no reason to outright abandon either GR or QFT in practice today, and indeed, there is no clearly better replacement.

        Neither GR nor QFT is necessarily *wrong*, but both are incomplete, and the paths to complete one or the other tend to create calculational problems or outright conflicts. It is possible that one may complete to some much higher energy limit (or perhaps to arbitrary energies) while the other does not, which would lead to new problems involving how the metric is generated or how particles with wavelengths comparable to nearby curvature behave, rather than the problems we have currently.

        There *is* a desire to have a quantum mechanical description of gravity, simply because every other fundamental field has quantized. However, not every fundamental field nor its internal symmetries nor intereactions has been discovered yet -- that's been a good chunk of the focus at LHC. Moreover, equating QFT with the Standard Model itself is problematical on its own (ignoring gravity), since for example there is no theoretical explanation in the Standard Model itself for the striking similarity (but for a change in sign) in the charge of the electron and that of the proton. It also has even less to say about the Dark Sector, where at least GR has some successful phenomenology and some useful ideas about how to generate metrics sourced by e.g. dark matter. It also has an increasingly large number of finely tuned (but free) parameters with practically no ideas about why they take on the values in our universe. Several successful GR models (including the standard cosmology) have approximately one free parameter and hints about selection mechanisms (although those tend to really put the infinity into an infinitely large universe).

        The frustrating thing is that as purely local theories (testable in the scale of devices in laboratories here on earth), both GR and the Standard Model are exquisitely accurate. The LHC, if we're lucky, will show that the SM is clearly incomplete at laboratory device scale, and if we're verrrry lucky will kill off lots of ideas about ways to complete TSM to unification (or even higher) energies, or ways to replace both it and GR in their respective high energy limits (but that's perhaps the least likely outcome, in spite of lots of string/brane theorists' hopes).

  • by Rinikusu ( 28164 ) on Wednesday June 03, 2015 @01:57PM (#49833309)

    Shit. Things have gotten so bad the quarks have to get on the pole to make a living.

  • by Hussman32 ( 751772 ) on Wednesday June 03, 2015 @02:06PM (#49833407)

    Just wondering if the Mayan Calendar included leap year in the translations. If not, let me see, 5126 years, divided by 4 = 1281 leap days missed, and it's been about 884 days since the 'end of the world' and experiments are on track for the next 900 days.

    Um...

  • Take a look-- (Score:5, Interesting)

    by sillivalley ( 411349 ) <sillivalley@nospaM.comcast.net> on Wednesday June 03, 2015 @02:32PM (#49833663)
    https://op-webtools.web.cern.c... [web.cern.ch]

    Live on the web -- this is a summary page, with much more available
  • As I recall, the first run of LHC was scheduled to run only 6 months out of 12, due to seasonal electricity price differences (although I think they abandoned that to get back on schedule after the catastrophic magnet failure.) Does anyone know if they're really running non-stop for three years, or is there significant down-time that the science reporter didn't know about or glossed over?

The 11 is for people with the pride of a 10 and the pocketbook of an 8. -- R.B. Greenberg [referring to PDPs?]

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