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Narrowing in on the W Boson Mass

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Posted February 12, 2018
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Scientists working on the ATLAS experiment at the Large Hadron Collider (LHC)—the world’s largest particle collider, hosted at CERN, the European particle physics laboratory—have precisely measured the mass of the W boson, a particle that plays a weighty role in a delicate balancing act of the quantum universe. This measurement is regarded as one of the most difficult in particle physics and the first of its kind for an LHC experiment. The new result is consistent with predictions and comparable to the precision of previous measurements made at the Tevatron collider at Fermilab.


The ATLAS Collaboration reports the first high-precision measurement at the Large Hadron Collider (LHC) of the mass of the W boson, using data from proton-proton collisions at 7 TeV. (Credit: ATLAS Collaboration)

“Achieving such a precise measurement despite the demanding conditions present in a hadron collider such as the LHC is a great challenge,” says the spokesperson of the ATLAS Collaboration, Karl Jakobs. “Reaching similar precision to that previously obtained at other colliders, with only one year of Run 1 data, is remarkable. It is a prominent example of our ability to improve our knowledge of the Standard Model and look for signs of new physics through highly accurate measurements at the LHC.”

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ATLAS Experiment event display: a W boson decays into one muon and one neutrino (Credit: ATLAS Collaboration)

The U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) is a part of the ATLAS Collaboration. Brookhaven National Laboratory serves as the U.S. host laboratory for the 45 U.S. institutions working on the ATLAS experiment.

The quantum universe is a delicate ecosystem in which particles and forces are intimately linked in a subatomic balancing act. Over the years, theorists have developed very precise predictions about each particle’s properties based on experimental measurements, and the mathematical relationships between them contained in the Standard Model—the world’s best field-guide to subatomic particles.

For instance, the W boson is a massive particle and the carrier of the weak force, a subatomic superpower that enables quarks (the point-like particles found inside protons and neutrons) to switch their identities.

This new measurement by the ATLAS experiment, published Feb. 6 in the European Physical Journal C, pegged the W boson mass as 80370±19 million electron volts (MeV), which is in the same ball park as the theoretical prediction, but not yet precise enough to see if theory lines up exactly with experiment.

Measuring the mass of the W boson as well as we can is especially important because it is one of the main ingredients in the scientific equation that predicts the mass of the Higgs boson, which was discovered at the LHC and is a crucial component of the Standard Model.

“Prior to the Higgs discovery in 2012, we restricted its possible masses to a small window based on our measurements of the W boson and Top quark,” says Bodhitha Jayatilaka, a researcher at Fermilab who worked on the W boson measurement at the Tevatron. “By further confining the mass of the W boson, we can see if there are other ingredients which might be tipping the scales and secretly influencing the mass of the Higgs boson.”

The LHC measurement is based on around 14 million W bosons recorded by ATLAS since 2011. It relies on a thorough calibration of the detector and of the theoretical modeling of W-boson production. Further analysis with the huge sample of now-available LHC data will allow even greater accuracy in the near future.

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Note: This article is adapted from a Brookhaven National Laboratory article. View the original article.

Source: Berkeley Lab, written by Sarah Charley, U.S.-CERN/Fermilab.

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