Protons Collide At 13 TeV For the First Time At the LHC

An anonymous reader writes to let everyone know the LHC has now smashed protons together at 13 TeV, the highest energy level yet achieved. They've posted the first images captured from the collisions, and explained the testing process as well. Jorg Wenninger of the LHC Operations team says, "When we start to bring the beams into collision at a new energy, they often miss each other. The beams are tiny – only about 20 microns in diameter at 6.5 TeV; more than 10 times smaller than at 450 GeV. So we have to scan around – adjusting the orbit of each beam until collision rates provided by the experiments tell us that they are colliding properly." Spokesperson Tiziano Camporesi adds, "The collisions at 13 TeV will allow us to further test all improvements that have been made to the trigger and reconstruction systems, and check the synchronisation of all the components of our detector."

Re:Results

[ganjadude]

well this was actually a calibration not a "test". From my understanding to make sure no stray particles are going "off track" they ran this test. So while it is the first time its been run to full power, it wasnt for any reason other than calibration. Now, I dont know if they are collecting and running any data on the collisions that did happen

Re:

[rmdingler]

They actually got the speed of the particle beam(s) up to 6.5 TeV last month, and this is the collision experiment.

Think of a 150 kph collision with two vehicles travelling at 75 kph colliding head-on.

Re:

[ganjadude]

right, they did do a collision, but they are still calibrating is all i was getting at. Still absolutely awesome, and im sure there are gigs if not petas of data from it

Re:

[raind]

From tfa: This is an important part of the process that will allow the experimental teams running the detectors ALICE, ATLAS, CMS, LHCb, LHCf, MOEDAL and TOTEM to switch on their experiments fully. Data taking and the start of the LHC's second run is planned for early June.

Re:

[Urkki]

while it is the first time its been run to full power, it wasnt for any reason other than calibration

Well, not the only reason. They also wanted to verify it does not trigger destruction of the planet, or a phase change of our universe. No point gathering data, if there's nobody left to examine it, is there?

Re:Results

[Megahard]

Here's a video

http://www.cyriak.co.uk/lhc/lh... [cyriak.co.uk]

When Protons Collide

[turkeydance]

at a theatre near you.

Re:

[msauve]

Hulk smash!

Re:

[ArcadeMan]

You missed the episode where Flash's nemesis, Adobe, kills him.

Re:

[Anonymous Coward]

That sent shockwaves everywhere!

on second thought

[turkeydance]

wouldn't 13TeV be an awesome band name?

Sounds like a smash hit record

[davidwr]

Or something like that.

Paging Tech Seargent Chen ...

[gstoddart]

Tech Seargent Chen please report to the bridge for plot exposition.

It sounds so good, and it's the LHC ... but I honestly have no idea of what it means.

Re:

[GNious]

Next, they are planning on only releasing a single proton, then have a guy run in the opposite direction at Mach 2, and finally having the two collide.

Re:

[gstoddart]

Wow ... calibrating the sights to cross the streams. Only really wee streams to cross.

Or is it more analogous to the beam hits an object (hence the guy)?

That actually makes sense, thanks.

Pew pew!! Way cooler than lasers!

All that power

[ArcadeMan]

How many Bitcoins would they be able to mine with all that power?

Not hot enough?

[wrench turner]

It sounds like 13 TeV isn’t hoped to be hot enough to do anything "new"; they're just assuring their aim is good. What's next; how hot are they aiming?

The begining

[coastwalker]

IANA theoretical physicist but...

In six months or so we will know whether there is anything absolutely extraordinary to be learned from the LHC. It is only a hope that new physics will be found at 13TeV. We spent the money to find the Higgs and found it, in the next year or so we will know a lot more about it but the hope is that something of interest to the general public may come out of the energy boost. I would not hold your breath though, so far we have only seen exactly what we expected to see. The next big thing may be to search for the gravitational waves from the big bang to settle the question of whether inflation started the universe. No one is funding it until at least 2035.

Sadly I really think we need to keep our fingers crossed that a mere doubling of energy in the LHC will find anything startling.

Unfortunately we probably need to spend at least as much money on a different experiment to find another amazing thing.

Having said that it is already a triumph to have discovered the Higgs scalar field - something that was only a theory until the LHC came along and now it is in the text books because of it.

You may find that like the moon landing, a tremendous leap forward is followed by 50 years of disappointment once the political will has died. (At least we have transparent aluminum AlN now) :-)

Re:

[budgenator]

I thought that the supposed thingy they found was higgs like, but they needed to gather data on a boat-load more to ramp up the confidence level.

Re:The begining

[Anonymous Coward]

The particle is something that very much resembles a minimal Standard Model Higgs, to the point of being presently indistinguishable from any other proposed Higgs model. At 14TeV and with increased luminosity it's hoped that various proposed splittings will become visible in the data, ruling many possible alternate theories out (or in!).

What we're really expecting to see is the first direct proof of beyond-the-standard-model physics. There are corrections to various physics processes going on whose contributions to observable quantities, if you only plug in known particles/interactions, basically increase without bound at higher energies (these are the "radiative corrections" we hear about). At much past 1-2 TeV/parton (or 6-12TeV/proton), the resulting quantities and cross sections predicted go looney tunes (specifically, weak interactions violate unitarity and we end up with probabilities larger than 1 - oh teh noez!).

It's considered almost guaranteed that we must see *something* outside of the standard model at these energies, because the standard model blows up but physics, of course, does not.

Re:

[Anonymous Coward]

"Sir, at these levels the known particles interact beyond our highest measurable energy bounds. If we do a radiative correction the resulting quantities and cross sections will weakly violate unitarity with a probability greater than one."

"I paid for it. Turn it on"

Re:The begining

[Anonymous Coward]

At the moment the big thing in particle physics is attempts to try to figure out what dark matter is. Even if the LHC does not detect any dark matter particles, that would in itself constrain the possibilities significantly, and there are other experiments currently in teh works, and active, trying to detect it in various ways. Also, even if the LHC only find that the standard model works the way it is expected to, that would in itself eliminate a great deal of theoretical possibilities, which would give scientists a better idea for how to proceed in the future.

With regards to future experiments, the LHC really pushes the limit of what is practical in accelerator technology. If you want to build something bigger you start getting into problems with the Earth's curvature and seismic activity. There is a lot of research into alternative ways to accelerate particles, such as plasma Wakefield accelerators, but while they do show big improvements in the energy attainable, current technology does not allow them to be used to generate a high quality particle beam, as is necessary for high energy experiments.

Sad as it is to admit. It is unlikely that we will be able to go much higher in terms of raw energy in the foreseeable future. Future physicists will have to find alternative means of studying fundamental particle interactions, possibly through indirect methods, as it simply is not very practical to increase the energy in collisions indefinitely.

Re:

[prisoner-of-enigma]

Here's where I have to be a bit cynical and pragmatic. Googling around, it seems it cost $13.25 billion to find the Higgs. I remember a lot of people in the US were very ticked off when the budget for a US-based collider was eliminated, but let's get real here: does it really matter which country found the damned thing, other than the pride of the physicists involved in finding it?

And now that it's found, and given it's somewhat unlikely -- although admittedly not impossible -- the LHC will find somethin

there goes the neighborhood

[confused one]

And a loud RIP was heard as they created a new tear in the fabric of space-time.

Look out, bro!

[paiute]

What happens to the Standard Model if at 13 TeV they start hearing tiny screams at each fragmentation?

And of course, the madatory question

[MouseTheLuckyDog]

Has LHC destroyed the Earth yet? [hasthelhcd...eearth.com]

Re:And of course, the malodoratory question

[TheRealHocusLocus]

Has LHC destroyed the Earth yet? [hasthelhcd...eearth.com]

For best results, keep reloading the page.

Now is always an excellent time to warn of the conceivable dangers of high energy particle physics experiments which are already in progress [slashdot.org]. Stephen Hawking warns that Higgs Boson 'God' particle, which gives shape and size to everything that exists, could cause a 'catastrophic vacuum delay' [dailymail.co.uk] if scientists were to put it under extreme stress. Fortunately this is not a major budget concern for CERN since if this is true, the facility need not be relocated to a safer p

Re:

[TheRealHocusLocus]

#!/bin/perl -pn -0777
use Math::Prime::Util 'next_prime';
# 'pepper' ROT13 backwards from end of message
# using distribution of primes so occasional blips
# become more concentrated at the end

s/\s+$//; # no whitespace at end
s/ \[.*?\]//sg; # eliminate added Slashdot [host] for decode
s/ nut / /s; # undo a post-correction I made

@a=unpack('C*',$_);
$i=0;
while (($i=next_prime($i))<1018) { # only last 1018 chars
$p=\$a[-$i];
if (($$p>=97) and ($$p<=122)) {

Re:

[X0563511]

That's a lot of unecessary text... but this had me rofl: "the first person to ask for an RSS feed gets a free black hole in their junk"

Re:

[MouseTheLuckyDog]

You know that for certain types of black holes that should read "get their junk in a free black hole". Of course there is also the pun of mispronouncing hole as ho.

SSC?

[Michael Woodhams]

The Superconducting Super Collider [wikipedia.org] would, if not cancelled, have had 40TeV collisions about 15-20 years ago. The LHC is using computing resources that are very challenging to supply in 2015, exceeding what would have been achievable for SSC by a factor of perhaps 1000 (15-20 years of Moore's Law.)

Had SSC been completed, would the computing and detector technology have been able to make effective use of the collisions? Was it in fact a correct decision to abandon it at that time? Would the much higher collision energy have reduced the detection/computational load in some way? (E.g. higher signal to noise, leading to needing many fewer collisions.)

Re:

[Anonymous Coward]

The true excellence in the LHC is not its maximum collision energy alone (which of course is awesome in itself), but the luminosity and resolution that is included with it. The reactions that are hunted occur at miniscule rates, and the major effect of the LHC is the big step up in several orders of magnitude as the pure number of collisions go. The design figures quoted for the SSC luminosity were only an order of magnitude lower than corresponding figures for the LHC, but that is not to be taken lightly.

R

Re:

[Michael Woodhams]

Thank you very much for such a complete response.