LHC finishes proton-proton collisions in 2018

In summary: I see, maybe that's what you're suggesting.In summary, the LHC started off the new year with its first beams circulating. The machine operators are slowly increasing energy and number of bunches, with first collisions planned for the end of April. The schedule and current status can be viewed online. This year, more data is expected to be collected due to improvements made during the shutdown. The long-term outlook includes upgrades to detectors and potentially reaching the design value of 14 TeV collision energy. Frequent upgrades are necessary to improve the collision rate and keep the accelerator running. While some may argue that the LHC is offline more than it is online, this is necessary for maximizing its scientific output.
  • #36
LHC Report: The LHC is full!
The peak luminosity reached 2.1*1034/(cm2s), or 210% the design value, roughly the same as the record from last year and equal to the absolute luminosity record set by KEKB (with electron-positron collisions).

Apart from the usual interruptions (schedule) the focus is on getting as many collisions as possible.
An important measure of the beam focus is beta*, the smaller the better, but smaller values tend to create problems elsewhere in the accelerator. The LHC now starts with 30 cm. Later in the run, when the beam currents dropped sufficiently, this is reduced to 27 cm and then to 25 cm. Similar to the reduction in crossing angle: It cannot prevent the luminosity from decreasing over a run, but it makes it decrease slower.

Collected (integrated) luminosity:
11/fb for ATLAS and CMS (target: 60), 0.35/fb for LHC (target: 2).
~16 weeks remaining, ATLAS and CMS got 8/fb in the last two weeks, a naive extrapolation gives 64/fb extra, or about 75/fb for the whole year. The same naive extrapolation predicts 2.5/fb for LHCb. Even with some delays the goal looks realistic.
 
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  • #37
Well, those experiments will show us, that there are not beyond the standard model... once again, one year plus.
 
  • #38
We know the SM cannot be everything. It doesn't work at very high energies. The question is not "is there something new", but only "where is something new".16/fb for ATLAS and CMS, a rate of 0.5/fb in the last 10 days. Still on track for 60/fb or a bit more.
 
  • #39
mfb said:
We know the SM cannot be everything. It doesn't work at very high energies. The question is not "is there something new", but only "where is something new".
Yes, surely this is the truth.

I like the standard model because there are only a few number of fundamental particles, and then it's a sign of beauty.
I Would not like that the number of fundamental particles grow up like the elements of the periodic table.

But only nature has the answer, not our wishes. ; -)
 
  • #40
dukwon said:
I can’t possibly believe that they can actually image the proton bunches! Is that what we’re seeing in the lower of the two pics or it is something else?IH
 
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  • #41
The lower image is an computer animation highlighting some detector components that saw some collision product flying through them. Other detector components are darker/more transparent. In addition some reconstructed particle tracks are marked with orange lines.

Here is a similar one, but zoomed in. I think the cones mark regions with a very high density of tracks ("jets").
 
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  • #42
Currently, as of June 12, the LHC is in Machine Development, to be followed by a short Technical Stop and a Special Physics Run before returning to luminosity production on July 4. Integrated luminosities are exceeding goals and the machine has been in stable beams ~50% of the time.

From an article on the CERN web site:
On Tuesday, 12 June, luminosity production was interrupted for a block of machine development sessions, during which no fewer than fifteen different aspects were addressed by experts. This will be followed by a four-day technical stop to perform the necessary maintenance, repairs and minor upgrades to the machine, as well as the experiments. Before resuming luminosity production on 4 July, the experiments will perform special physics runs, for which low luminosity is generally needed. Until then, the aim is to keep the luminosity production high – as I write this report, the integrated luminosity counter for ATLAS and CMS is at 23.1 fb-1, exceeding our goal of around 18 fb-1, while for LHCb, we are at 0.8 fb-1 with a goal of 0.6 fb-1.
These two articles present a good overview-
LHC Report: Standing strong through the storms
LHC Report: Running towards a production break
 
  • #43
After a few minor problems, the LHC is again colliding 2556 bunches per beam. The current fill has been in stable beams for about 28 hours as of now.

lhc1.png
 

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  • #45
Mainly quiet weeks of data-collection so far. 30/fb for ATLAS and CMS, 1.1/fb for LHCb.

The LHC accelerated electrons! Well, not on their own, but lead nuclei with a single electron still bound to them. The main goal was not collisions, it was mainly a test for a potential future use of the LHC as intense source of gamma rays. The idea: Accelerate lead ions with a single electron, shine light in the visible/UV range against their direction of motion. In the frame of the lead ions this looks like x-rays. If the energy is right, it can excite the ion. It quickly returns to the ground state, emitting x-rays again (in its rest frame). Back in the lab frame these x-rays are photons with energies of up to hundreds of MeV. While other facilities can reach the same photon energies with electrons and lasers, lead ions would provide a source millions of times brighter.

Such a bright source could be used for photon-nucleus or photon-photon collisions, as source of polarized positrons or muons, as neutron source and more.

LHC accelerates its first “atoms”
The Gamma Factory proposal for CERN
 
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  • #46
mfb said:
Mainly quiet weeks of data-collection so far.

Don't say that! If you do, the PS might lose 18 kV power!

Drat! The PS just lost 18 kV power.
 
  • #47
Vanadium 50 said:
Don't say that! If you do, the PS might lose 18 kV power!

Drat! The PS just lost 18 kV power.

Ah, so you physicists are just as superstitious as us biologists! :approve:
 
  • #48
The discovery of the Higgs->bb decay, announced early July, got some media attention. http://press.cern/press-releases/2018/08/long-sought-decay-higgs-boson-observed.

I didn't find an updated luminosity plot for all years so I made one myself based on an older one and http://lpc.web.cern.ch/cgi-bin/plots.py?year=2018.
The black bar marks the end date (but not the final integrated luminosity!) of proton-proton collisions in 2018, afterwards we get lead-lead collisions for a few weeks.

lumi.png
 

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  • #49
https://home.cern/cern-people/updates/2018/09/lhc-report-final-days-run-2

ATLAS and CMS reached 53/fb. More than in 2017. Just 3/fb more to reach the overall Run 2 (2015-2018) goal of 150/fb.
LHCb reached 2/fb.

4 weeks of data-taking remaining (+1 week for special runs), ending October 27. In November we'll get lead-lead collisions.

All of 2019 and 2020 will be used for detector upgrades, Run 3 of the LHC will start in 2021.
Both LHCb and ALICE will work on major upgrades for their detectors. Starting in Run 3 LHCb will read out all of its detectors at the full rate as this information is needed to efficiently select interesting events.
ATLAS and CMS plan smaller upgrades, they will do their major upgrades 2024-2026.
 
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  • #50
Proton-proton collisions ended over night. Now we get a few days of machine development, followed by a technical stop, then lead-lead collisions from Nov 8 to Dec 2.

Final integrated luminosities are 66/fb for ATLAS and CMS, 2.5/fb for LHCb, 0.027/fb for ALICE, nicely above the expected values.

A lot of groups now can look at the full datasets and finish their analyses, we will probably get many results from searches for new physics in the next months.
 
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  • #51
Also, Long Shutdown 2 will follow the Pb-Pb collisions, so no more p-p collisions till May, 2021.
 
  • #52
Ion run is over. LS2 started about 2 hours ago.
 
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  • #53
This is the LHC Status Page 1 this morning- There is some humor in the comments.

lhc1.png
 

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  • #54
From the point of view of the experiments (especially LHCb) the energy situation is a bit annoying. You want your Monte Carlo simulations to be realistic, which means they should be at the energy the accelerator will run. Probably 14 TeV, but if the magnets can't be trained enough we might end up with 13 TeV or maybe 13.5 TeV. Do you do 14 TeV simulations now and risk that they become less useful? Do you delay the production until the energy is fixed and have less time for proper phase 3 preparation? Something in between?

For searches for heavy new particles (->ATLAS, CMS) the upgrade to 14 TeV is quite useful, so it is worth trying it. I don't know how LHCb thinks about this - they mainly look for decays of lighter particles and their production rate doesn't go up that much with 14 TeV.
 
  • #55
We produce MC for physics analysis after the data has been taken and we know what the conditions were. There is some Run 3 MC (at 14 TeV) but it's for detector upgrade studies, not physics analysis.
Our 2017 MC productions are only just starting now
 
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  • #56
You still have to optimize the trigger and so on.

ATLAS and CMS use MC produced in advance extensively for searches - you get results faster that way. Ideally the analysis methods are essentially fixed once the data comes in and you just have to run it over data and do all the various cross checks.
 
<h2>1. What is the LHC?</h2><p>The LHC (Large Hadron Collider) is the world's largest and most powerful particle accelerator, located at the European Organization for Nuclear Research (CERN) in Switzerland. It is used to study the fundamental building blocks of matter and the forces that govern them.</p><h2>2. What are proton-proton collisions?</h2><p>Proton-proton collisions are when two protons are accelerated to extremely high speeds and smashed into each other inside the LHC. This allows scientists to study the subatomic particles that are produced in these collisions.</p><h2>3. Why is the LHC finishing proton-proton collisions in 2018?</h2><p>The LHC is finishing proton-proton collisions in 2018 in order to undergo an upgrade and maintenance period known as "Long Shutdown 2." This will prepare the LHC for higher energy collisions and new experiments in the future.</p><h2>4. What have scientists learned from the LHC's proton-proton collisions?</h2><p>The LHC has helped scientists make numerous discoveries, including the confirmation of the Higgs boson particle and the study of the quark-gluon plasma state of matter. It has also provided insights into the nature of dark matter and antimatter.</p><h2>5. Will the LHC continue to operate after 2018?</h2><p>Yes, the LHC will continue to operate after 2018. It is scheduled to resume proton-proton collisions in 2021 after the upgrade and maintenance period. The LHC is expected to continue pushing the boundaries of particle physics for many years to come.</p>

1. What is the LHC?

The LHC (Large Hadron Collider) is the world's largest and most powerful particle accelerator, located at the European Organization for Nuclear Research (CERN) in Switzerland. It is used to study the fundamental building blocks of matter and the forces that govern them.

2. What are proton-proton collisions?

Proton-proton collisions are when two protons are accelerated to extremely high speeds and smashed into each other inside the LHC. This allows scientists to study the subatomic particles that are produced in these collisions.

3. Why is the LHC finishing proton-proton collisions in 2018?

The LHC is finishing proton-proton collisions in 2018 in order to undergo an upgrade and maintenance period known as "Long Shutdown 2." This will prepare the LHC for higher energy collisions and new experiments in the future.

4. What have scientists learned from the LHC's proton-proton collisions?

The LHC has helped scientists make numerous discoveries, including the confirmation of the Higgs boson particle and the study of the quark-gluon plasma state of matter. It has also provided insights into the nature of dark matter and antimatter.

5. Will the LHC continue to operate after 2018?

Yes, the LHC will continue to operate after 2018. It is scheduled to resume proton-proton collisions in 2021 after the upgrade and maintenance period. The LHC is expected to continue pushing the boundaries of particle physics for many years to come.

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