Interactions News Wire #13-09
11 March 2009
http://www.interactions.org
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Source: Fermilab
Content: Press Release
Date Issued: 11 March 2009
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Precision measurement of W boson mass portends stricter limits for Higgs particle
Batavia, Ill.--Scientists of the DZero collaboration at the Department of
Energy's Fermi National Accelerator Laboratory have achieved the world's
most precise measurement of the mass of the W boson by a single
experiment. Combined with other measurements, the reduced uncertainty of
the W boson mass will lead to stricter bounds on the mass of the elusive
Higgs boson.
The W boson is a carrier of the weak nuclear force and a key element of
the Standard Model of elementary particles and forces. The particle, which
is about 85 times heavier than a proton, enables radioactive beta decay
and makes the sun shine. The Standard Model also predicts the existence of
the Higgs boson, the origin of mass for all elementary particles.
Precision measurements of the W mass provide a window on the Higgs boson
and perhaps other not-yet-observed particles. The exact value of the W
mass is crucial for calculations that allow scientists to estimate the
likely mass of the Higgs boson by studying its subtle quantum effects on
the W boson and the top quark, an elementary particle that was discovered
at Fermilab in 1995.
Scientists working on the DZero experiment now have measured the mass of
the W boson with a precision of 0.05 percent. The exact mass of the
particle measured by DZero is 80.401 ± 0.044 GeV/c2. The collaboration
presented its result at the annual conference on Electroweak Interactions
and Unified Theories known as Rencontres de Moriond last Sunday.
"This beautiful measurement illustrates the power of the Tevatron as a
precision instrument and means that the stress test we have ordered for
the Standard Model becomes more stressful and more revealing," said
Fermilab theorist Chris Quigg.
The DZero team determined the W mass by measuring the decay of W bosons to
electrons and electron neutrinos. Performing the measurement required
calibrating the DZero particle detector with an accuracy around three hundredths of one
percent, an arduous task that required several years of effort from a team
of scientists including students.
Since its discovery at the European laboratory CERN in 1983, many
experiments at Fermilab and CERN have measured the mass of the W boson
with steadily increasing precision. Now DZero achieved the best precision
by the painstaking analysis of a large data sample delivered by the
Tevatron particle collider at Fermilab. The consistency of the DZero
result with previous results speaks to the validity of the different
calibration and analysis techniques used.
"This is one of the most challenging precision measurements at the
Tevatron," said DZero co-spokesperson Dmitri Denisov, Fermilab "It took
many years of efforts from our collaboration to build the 5,500-ton
detector, collect and reconstruct the data and then perform the complex
analysis to improve our knowledge of this fundamental parameter of the
Standard Model."
The W mass measurement is another major result obtained by the DZero
experiment this month. Less than a week ago, the DZero collaboration
submitted a paper on the discovery of single top quark production at the
Tevatron collider. In the last year, the collaboration has published 46
scientific papers based on measurements made with the DZero particle
detector.
Media Contacts:
Kurt Riesselmann, Fermilab, +1-630-840-3351,
kurtr@fnal.gov
Graphics and photos are available at:
http://www.fnal.gov/pub/presspass/press_releases/W-Mass-20090311-Images.html
Notes for Editors:
DZero is an international experiment of about 550 physicists from 90
institutions in 18 countries. It is supported by the U.S. Department of
Energy, the National Science Foundation and a number of international
funding agencies.
Fermilab is a national laboratory funded by the Office of Science of the
U.S. Department of Energy, operated under contract by Fermi Research
Alliance, LLC.
InterAction Collaboration media contacts:
A full list of worldwide InterAction media contacts is available at:
http://www.interactions.org/presscontacts/
