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Fermi National Accelerator Laboratory (Fermilab), located in Batavia, Illinois, near Chicago, is a United States Department of Energy national laboratory specializing in high-energy particle physics. Fermilab's Main Injector, two miles (3.3 km) in circumference, is the laboratory's most powerful particle accelerator. [2]
The DØ experiment stopped taking data in 2011, when the Tevatron shut down, [2] but data analysis is still ongoing. The DØ detector is preserved in Fermilab's DØ Assembly Building as part of a historical exhibit for public tours. [3] DØ research is focused on precise studies of interactions of protons and antiprotons at the highest ...
In order to provide 1.2 MW of protons to LBNF, the second phase of the Proton Improvement Project ("PIP II"), which will increase proton delivery from the Fermilab accelerator chain by 60%, must be completed. [17] The cost of this Fermilab upgrade as of 2022 is $1.28B. [18] Thus, the PIP II and DUNE Phase I combined costs exceed $4B.
After Leon M. Lederman stepped down from the Fermilab directorship, Peoples became director on July 1, 1989. [ 5 ] During Peoples's time as Fermilab's director, the lab increased the Tevatron's luminosity by a factor of 20 between 1990 and 1994, which made it possible for Fermilab's experiments CDF and D0 to discover the top quark .
The Tevatron was a circular particle accelerator (active until 2011) in the United States, at the Fermi National Accelerator Laboratory (called Fermilab), east of Batavia, Illinois, and was the highest energy particle collider until the Large Hadron Collider (LHC) of the European Organization for Nuclear Research (CERN) was built near Geneva, Switzerland.
This page was last edited on 30 December 2017, at 00:37 (UTC).; Text is available under the Creative Commons Attribution-ShareAlike 4.0 License; additional terms may apply.
The Collider Detector at Fermilab (CDF) experimental collaboration studies high energy particle collisions from the Tevatron, the world's former highest-energy particle accelerator. The goal is to discover the identity and properties of the particles that make up the universe and to understand the forces and interactions between those particles.
This can happen in several ways (called channels): Either an intermediate W-boson decays into a top and antibottom quarks ("s-channel") or a bottom quark (probably created in a pair through the decay of a gluon) transforms to a top quark by exchanging a W boson with an up or down quark ("t-channel"). A single top quark can also be produced in ...