HomeAbout symmetryContact UsPast IssuesSubscribeRSS
symmetry - dimensions of particle physics

explain it in 60 seconds

image

The Z boson is a heavy particle that is one of the carriers of the ‘weak force’. It is a partner of the W+ and W- bosons that mediate radioactive decay processes.

The Z boson was first discovered as an intermediary of a new type of neutrino reaction. This so-called ‘neutral current interaction’ was the missing piece of a puzzle in which the forces created by the W bosons fit together neatly with the force of electromagnetism, due to the photon. Together, these four particles create the forces that form a beautifully unified theory of ‘electroweak’ interactions.

In the 1990s, accelerators at the Stanford Linear Accelerator Center and CERN produced 12 million of these Z bosons in a controlled setting and studied the decays of the Z in great detail. The Z decays to pairs of all types of quarks and leptons, except for the heavy top quark. These experiments made high precision tests of the electroweak theory and the properties of quarks and leptons. Quarks produced from the Z radiate gluons, and so these experiments also give some of the highest-precision information about the carrier of the ‘strong’ interactions.

See also:

Logbook: Z Boson

Michael Peskin, Stanford Linear Accelerator Center

 
Click here to download the pdf version of this article.

Click here for the "Explain it in 60 Seconds" archive.

Send a letter to the editor

Share this page with others! Submit to:
  |     |     |     |  

symmetry Breaking

From early particle accelerators to the LHC in 12 minutes
July 28, 2010
Check out a 12-minute public television program that traces the invention of the cyclotron in Berkeley in the 1930s, the development of SLAC's two-mile-long linear accelerator in the 60s, and how they relate to what's going on at the Large Hadron Collider.
Lighting up the dark universe
July 28, 2010
Exploring our dark universe is usually the domain of extreme physics. Clues to dark matter and energy are searched for by huge neutrino telescopes and particle detectors, deep underground, and by experiments launched into space. But an experiment doesn't have to be exotic to explore the unexplained. At the International Conference on High Energy Physics, which ends today in Paris, scientists from the GammeV-CHASE experiment unveiled the first results from their experiment, which used 30 hours' worth of data from a 10-meter-long experiment to place the world's best limits on particles of dark energy.
LHC results: Not just the same old thing
July 26, 2010
CERN's press release issued today states that the LHC's first measurements are allowing them to “rediscover” the Standard Model of particle physics. But the presentations at ICHEP tell a slightly different story.
Subscribe to symmetry

Email Update List

Receive email notifications of the release of future issues of symmetry:

more options
On the Cover
Issue Cover

Battered or shiny, personalized license plates are a whimsical part of physics culture. On one level they're inside jokes, told with a wink to those in the know; on another, an invitation to approach and learn more. In response to a call from symmetry, readers sent dozens of their favorites. "It's a memento from one of the most intense times I've been through," one wrote. "It's a treasure from that great time."

PDF View Issue PDF

Logbook Archive
Photo - Logbook: Archive

Cosmic Rays

Dec 2005/Jan 2006
Enrico Fermi's notebook of December 1948 contains the genesis of his theory of cosmic rays. ...

View Logbook Archive

Explain it in 60 Seconds Archive
Photo - Explain it in 60 Seconds: Archive

Particle Event

Jun/Jul 2007
A particle event is a particle collision or interaction that is observed by some type of particle detector....

View 60 Seconds Archive
© 2007 symmetry  A joint Fermilab/SLAC publication.  PO Box 500 MS206  Batavia, IL 60510  USA