Free Republic
Browse · Search
News/Activism
Topics · Post Article

Skip to comments.

The World's Biggest Physics Experiment is about to Reboot
Gizmodo ^ | 3/20/2015 | Jaime Condliffe

Posted on 03/20/2015 7:28:27 AM PDT by EBH

The Large Hadron Collider (LHC) is the most audacious physics experiment in human history. Now scientists are about to restart the giant particle collider for a new set of experiments. Last time, they did the almost-impossible and found the Higgs Boson. This time, they might find something even more exciting.

Back in 2008, just nine days into its first run of experiments, there was a significant incident at the Large Hadron Collider. A faulty electrical connection between two magnets stopped superconducting, then melted and caused serious mechanical damage to the facility. The accident delayed use of the LHC for six whole months as repairs and testing was undertaken—but it also meant that the facility ran for three years at much lower capacity than envisioned.

Clearly the collider coped. On July 4th 2012, scientists from two experiments at the LHC—CMS and ATLAS—announced that they had discovered a new boson. It was the Higgs Boson; the invisible particle that gives everything mass and, in turn, holds the universe together. The finding was arguably the biggest scientific finding of the decade, perhaps even more.

But all the while it was running below par. The LHC shut down for maintenance in 2013, though, and over the past two years, engineers have beefed it up. They've upgraded the superconducting interconnections between a series of magnets on the accelerator, adding extra shunts and more powerful magnets. The shunts provide a route through which current can escape if high-power accidents—like the one that caused the break back in 2008—happen again, meaning it's safer to run at higher energy levels.

Just 27,000 shunts around the 16.7-mile circumference accelerator later, the LHC is back in business. And more powerful than ever.

Absolute Power

When the LHC closed down in 2013, its highest energy experiments has been carried out at 8 teraelectron volts (TeV). Soon, scientists at the LHC will be able to ratchet the accelerator to an unprecedented 13TeV. For most of us that's a fairly incomprehensible unit of energy, though, so LHC scientists have prepared a neat analogy to help those without degrees in particle physics. The newly refurbished LHC can create beams of particles that carry energy to melt a tonne of copper on impact. That's... impressive.

"The higher energy means more chance of finding new discoveries," explains Alan Barr, a Professor of Particle Physics at the University of Oxford who works on the ATLAS experiment at the Large Hadron Collider. "The LHC's higher energy can give us sensitivity to new, as-yet-undiscovered particles."

Einstein's famed equation, E=mc2, explains that that energy and mass are broadly equivalent, so in practice extra energy allows the scientists to find heavier particles than before. "The kinetic energy of the colliding particles is converted into the mass of heavier particles, which immediately decay back into the particles with which we are familiar," explains James Hirschauer from the Fermi National Accelerator Laboratory who works on experiments at the LHC. "We are hoping that we will produce heavier particles that are so far unknown — just like we produced and discovered the Higgs boson in 2012. The energy jump is desirable because, if a new heavy particle exists, the rate of production of that particle will be higher at higher collision energies." In an email, Hirschauer gave me a great example of why increasing the rate of particle production is so important:

"We now know that we were producing Higgs bosons at the Fermilab Tevatron (collision energy of 1.96TeV). But there were relatively few Higgs bosons, and they were hidden by the enormous "background" of non-Higgs collisions at the Tevatron, so we could not separate the Higgs signal from the background in our analyses of the Tevatron data. However, at the higher energy of the 8TeV LHC, each collision was about 30 times more likely to produce a Higgs boson than at the 2TeV Tevatron. So in a given number of collisions, we produced about 30 times more Higgs bosons at the LHC than at the Tevatron. [I]n case you are wondering: People often ask, doesn't the *background* production rate also increase with increasing collision energy? Indeed the background rate does increase, but not as much as the production rate for a high mass particle, so we still gain by moving to higher collision energy."

Sadly, it's not possible to simply flick a switch on the LHC and summon 13TeV on demand. Instead, the $6 billion accelerator requires a gradual warm up before it reaches peak power. Last week, CERN researchers sent the first test particles through the accelerator. Slowly, over the coming weeks, they'll send more and more, each time checking the alignment of the beams and the accelerator's ability handle them. Cern's director general, Rolf-Dieter Heuer, has said that the LHC will be loaded with the first proper proton beams in the next two weeks. The accelerator should gradually ramp up to higher energies, with the resulting collisions—which will be the most energetic ever created by humans—due to follow near the end of May.

Dark Secrets

The results may not initially seem worth the wait. When the new high-energy collisions begin, we'll initially see more of the same. After all, we managed to glimpse the Higgs at 8 TeV so, as Hirschauer's reasoning tells us, in the first instance we'll just see even more of them at these higher energies. That might not be too exciting, but it will help us understand the relatively new particle more precisely, enabling more accurate measurements of its properties.

But there will likely be more. "One thing we think we might discover are supersymmetric particles," explains Hirschauer. Super symmetrical particles are the theoretical partners of each of the particles explained by the Standard Model—the most elementary particles that we know of, like quarks, leptons and bosons. While the Standard Model does a wonderful job of explaining particle physicists, scientists admit that it's incomplete.

Taken at face value, the Standard Model predicts that all particles should have zero mass—but that disagrees with direct human observation of the world around us. While the Higgs boson goes some way to explaining why other particles have mass, it remains a mystery why it itself also has no mass. An additional set of supersymmetric particles that behave similar properties but have different masses, physicists suggest, could cancel out contributions to the Higgs mass from their Standard-Model partners—making a massless Higgs boson possible. In turn, that would make it possible to mathematically link the Standard Model's three forces – electromagnetism and the strong and weak nuclear forces – and create single unified theory to explain the Universe. A theory of everything.

"For certain supersymmetric particles, the production rate increases by a factor of about 30 when we increase the collision energy from 8TeV to 13TeV," explains Hirschauer. "At the same time, the production rate for the main 'background' to this supersymmetric 'signal' only increases by a factor of about 4. So the signal-to-background ratio will increase by a factor of about 7.5. This is a huge and very exciting gain!" In other words, the LHC is currently the best chance we have of creating a unified theory.

Those supersymmetric particles might not just help us to develop a powerful equation though. They could also explain one of the most enigmatic theories in physics: Dark Matter. "Most of the universe is made of Dark Matter," explains Barr. "That is stuff that pulls gravitationally on matter around it, but which doesn't interact with light, so is invisible. But it's very hard to detect." Dark matter theoretically accounts for up 80 per cent of the mass of the universe—but we've never yet observed a particle with the qualities we think it should exhibit. Perhaps unsurprisingly, then, scientists around the world are hopeful that the new experiments at the LHC might reveal something "It would be truly ground-breaking if we could find, in the debris from the LHC collisions, evidence for the particle (or particles) which are responsible for this Dark Matter," enthuses Barr. "We know they're not made of any particle we have already found, so the terra incognita that will be explored by the LHC is really very exciting."

Perhaps most tantalisingly, if one school of physics thinking is to be believed, we could potentially hit the jackpot and find both at once. "Based on our theories and the indirect evidence, these dark matter particles [could be] the same supersymmetric particles," explains Hirschauer. "I am personally working hard to discover dark matter particles under the assumption that they are supersymmetric particles."

All of this is, of course, far from certain. The nature of experimentation is that, however good your theories seem, reality can turn out to be something entirely unexpected. That, though, could end up being the most exciting outcome we could hope for. "On my most wildly optimistic day, [I imagine] we will discover something—anything—that disagrees with our current understanding of the universe," explains Hirschauer. "Disagreement will show us how we need to refine our theories to correctly explain the laws of nature. I promise that we will not be disappointed if we instead discover something completely unanticipated!"


TOPICS: Miscellaneous; News/Current Events; Unclassified
KEYWORDS: cern; hadroncollider; lhc; stringtheory
Navigation: use the links below to view more comments.
first 1-2021-4041-52 next last
Lots of things happening today...the first day of spring! Solar eclipses and CERN.... just might be a Great Day after all.
1 posted on 03/20/2015 7:28:27 AM PDT by EBH
[ Post Reply | Private Reply | View Replies]

To: EBH
Texas supercollider was cancelled. Thanks prezzy. I think it was peanut boy that cancelled it.

/johnny

2 posted on 03/20/2015 7:31:32 AM PDT by JRandomFreeper (gone Galt)
[ Post Reply | Private Reply | To 1 | View Replies]

To: EBH

World's biggest?

3 posted on 03/20/2015 7:32:39 AM PDT by Slyfox (I tremble for my country when I reflect that God is just: that his justice cannot sleep for ever)
[ Post Reply | Private Reply | To 1 | View Replies]

To: JRandomFreeper

Wasn’t that Billy Jeff? I may be thinking of something else.


4 posted on 03/20/2015 7:33:31 AM PDT by wally_bert (There are no winners in a game of losers. I'm Tommy Joyce, welcome to the Oriental Lounge.)
[ Post Reply | Private Reply | To 2 | View Replies]

To: EBH

A theory of everything?........We'll see........

5 posted on 03/20/2015 7:33:42 AM PDT by Red Badger (Man builds a ship in a bottle. God builds a universe in the palm of His hand.............)
[ Post Reply | Private Reply | To 1 | View Replies]

To: JRandomFreeper

No, Bill Clinton cancelled the Texas project. It was so far in development I never understood why it was halted. Wasted money right and left and brain power. I wonder if it was flawed and they used that experience to start over. I would never know.


6 posted on 03/20/2015 7:34:19 AM PDT by outinyellowdogcountry
[ Post Reply | Private Reply | To 2 | View Replies]

To: wally_bert
Obviously not my primary concern, open carry is. ;)

But I do pay a little attention to Texas stuff like the supercollider.

I expect I'm wrong about who was pres when it was cancelled. FR is a good place to get corrected.

/johnny

7 posted on 03/20/2015 7:35:30 AM PDT by JRandomFreeper (gone Galt)
[ Post Reply | Private Reply | To 4 | View Replies]

To: SunkenCiv

/mark


8 posted on 03/20/2015 7:36:05 AM PDT by KoRn (Department of Homeland Security, Certified - "Right Wing Extremist")
[ Post Reply | Private Reply | To 1 | View Replies]

To: EBH

hope they tightened all the screws this time


9 posted on 03/20/2015 7:41:05 AM PDT by bigbob (The best way to get a bad law repealed is to enforce it strictly. Abraham Lincoln)
[ Post Reply | Private Reply | To 1 | View Replies]

To: Slyfox

Yeah, I couldn’t read this without hearing Sheldon’s voice.


10 posted on 03/20/2015 7:41:40 AM PDT by kjam22 (my music video "If My People" at https://www.youtube.com/watch?v=74b20RjILy4)
[ Post Reply | Private Reply | To 3 | View Replies]

To: EBH

>>While the Standard Model does a wonderful job of explaining particle physicists, scientists admit that it’s incomplete.

I didn’t think anything could explain particle physicists!


11 posted on 03/20/2015 7:41:54 AM PDT by generally
[ Post Reply | Private Reply | To 1 | View Replies]

To: generally

LOL...


12 posted on 03/20/2015 7:45:30 AM PDT by EBH (And the angel poured out his cup...)
[ Post Reply | Private Reply | To 11 | View Replies]

To: kjam22

What could possibly go wrong?

13 posted on 03/20/2015 7:48:07 AM PDT by corkoman
[ Post Reply | Private Reply | To 10 | View Replies]

To: EBH
"the invisible particle that gives everything mass"

I don't think this statement is true.

I heard that Higgs bosons only give some types of matter mass.

14 posted on 03/20/2015 7:58:06 AM PDT by who_would_fardels_bear
[ Post Reply | Private Reply | To 1 | View Replies]

To: corkoman

I like the part where it says they’re hoping for something unexpected.


15 posted on 03/20/2015 7:58:14 AM PDT by kjam22 (my music video "If My People" at https://www.youtube.com/watch?v=74b20RjILy4)
[ Post Reply | Private Reply | To 13 | View Replies]

To: EBH

What **could** go wrong?

Well, some folks have given this some thight

In John Ringo’s Into the Looking Glass, the University of Central Florida is destroyed by a 60 kiloton explosion that is first thought to be a nuclear weapon, but turns out to be a mishap from a Higgs boson research experiment. Following the explosion, gateways to other worlds are opened and a war with the aliens on the other side of the gates begins..

Not always right, but this is very much unknown territory...


16 posted on 03/20/2015 8:03:08 AM PDT by ASOC
[ Post Reply | Private Reply | To 1 | View Replies]

To: EBH

In San Francisco they have the Large Hardon Collider.


17 posted on 03/20/2015 8:06:14 AM PDT by beethovenfan (If Islam is the solution, the "problem" must be freedom.)
[ Post Reply | Private Reply | To 1 | View Replies]

To: EBH
"I promise that we will not be disappointed if we instead discover something completely unanticipated!"

and behold, there was a great earthquake, and the sun became black as sackcloth, the full moon became like blood, and the stars of the sky fell to the earth as the fig tree sheds its winter fruit when shaken by a gale. The sky vanished like a scroll that is being rolled up, and every mountain and island was removed from its place.

18 posted on 03/20/2015 8:07:21 AM PDT by Starstruck (If my reply offends, you probably don't understand sarca only ones we can gesm or criticism...or do.)
[ Post Reply | Private Reply | To 1 | View Replies]

To: ASOC

Odd that people who talk about the “flying spaghetti monster” are gaga about the Higgs boson. They have not shown me a picture, only instrument readings which show it may exist.


19 posted on 03/20/2015 8:10:46 AM PDT by steve8714 (Traditional Catholics want Latin Mass. Traditional Muslims want your head.)
[ Post Reply | Private Reply | To 16 | View Replies]

To: EBH

20 posted on 03/20/2015 8:24:07 AM PDT by Mike Darancette (Not deniable = Not falsifiable = Not science = Not even wrong.)
[ Post Reply | Private Reply | To 1 | View Replies]


Navigation: use the links below to view more comments.
first 1-2021-4041-52 next last

Disclaimer: Opinions posted on Free Republic are those of the individual posters and do not necessarily represent the opinion of Free Republic or its management. All materials posted herein are protected by copyright law and the exemption for fair use of copyrighted works.

Free Republic
Browse · Search
News/Activism
Topics · Post Article

FreeRepublic, LLC, PO BOX 9771, FRESNO, CA 93794
FreeRepublic.com is powered by software copyright 2000-2008 John Robinson