Chaos' lil bro Order said:What's the current maximum particle energy we can produce on earth?
Also, what is the maximum we theoretically will achieve from proposed future accelerators, like the big loop at the LHC? I'm guessing 1TeV.
selfAdjoint said:The Tevatron collider outside Chicago can get up to 1 TEV in its beam and primary collisions, as its name implies, but not all that energy can be presented in one particle. The maximum particle energy I think they're looking at is around 200 GEV. LHC will be around twice that energetic. The most energetic thing Tevatron has done so far is refine the mass of the top quark, which is now placed at 119 GEV.
The expected mass of the Higgs is now expected to be somewhere in the range 219 GEV to 250 GEV.
Parlyne said:Are you sure about your numbers for the LHC? I mean, the maximum beam energy will be 7 TeV (or 7 times larger than the Tevatron). So, why shouldn't the maximum particle mass created scale similarly?
selfAdjoint said:The Tevatron collider outside Chicago can get up to 1 TEV in its beam and primary collisions, as its name implies, but not all that energy can be presented in one particle. The maximum particle energy I think they're looking at is around 200 GEV. LHC will be around twice that energetic. The most energetic thing Tevatron has done so far is refine the mass of the top quark, which is now placed at 119 GEV.
The expected mass of the Higgs is now expected to be somewhere in the range 219 GEV to 250 GEV.
Chaos' lil bro Order said:Can you explain how you get the Top Quark to be 119 GEV? Are you sure you didn't make a mistake? Read this:
'The Collider Detector Facility group had found 56 top candidates over a predicted background of 23 and the D0 group found 17 events over a predicted background of 3.8. The value for the top quark mass from the combined data of the two groups after the completion of the run was 174.3 +/- 5.1 GeV. This is over 180 times the mass of a proton and about twice the mass of the next heaviest fundamental particle, the Z0 vector boson at about 93 GeV.'http://hyperphysics.phy-astr.gsu.edu/hbase/hframe.html[/QUOTE]
I deeply apologize. The latest figures from the D0 experiment at Tevatron are mt = 177.7 ± 8.8(stat)+3.7
−4.5(syst) GeV. (published last July). I don't know where I got that other number! Teach me to post in a hurry.
An accelerator is a scientific instrument that uses electromagnetic fields to propel charged particles to very high speeds and energies.
Knowing the highest energy produced in an accelerator helps scientists understand the fundamental building blocks of matter and the laws of physics at the smallest scales.
Energy in an accelerator is typically measured in electron volts (eV) or joules (J). One electron volt is the amount of energy gained by an electron when it is accelerated through a potential difference of one volt.
The highest energy ever produced in an accelerator was achieved at the Large Hadron Collider (LHC) at CERN in Switzerland. In 2012, the LHC reached a maximum energy of 8 trillion electron volts (TeV).
Scientists are constantly working to push the limits of accelerator technology and reach even higher energies. Some proposed future accelerators, such as the International Linear Collider and the Future Circular Collider, have the potential to reach energies in the range of 100 trillion electron volts (TeV).