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August 14, 2003
Susan Beasy Latto, Director of Public Relations (218) 726-8830
Alec Habig, UMD Assistant Professor of Physics (218) 726-7214 (email) ahabig@d.umn.edu


UMD Professor Among International Scientists Working On
MINOS Neutrino Experiment


Data-Taking Begins August 14 with
6,000-ton Detector Deep in the Soudan Mine

University of Minnesota Duluth (UMD) Assistant Professor of Physics, Dr. Alec Habig, is one of over 200 scientists participating in the MINOS neutrino experiment currently completing construction at the Fermi National Accelerator Laboratory in Batavia, Illinois, and the Soudan Underground Lab in Soudan, Minnesota. UMD is one of only 32 institutions selected from around the globe to participate in the Main Injector Neutrino Oscillation Search (MINOS).

Scientists of the MINOS collaboration at the Department of Energy's Fermi National Accelerator Laboratory today (August 14) announced the official start of data-taking with the 6,000-ton detector for the Main Injector Neutrino Oscillation Search (MINOS). Physicists will use the MINOS detector, located deep in the historic Soudan iron mine in northern Minnesota, to explore the phenomenon of neutrino mass.

In July, after four years of mining and construction, workers finished building the first of two detectors of the ambitious MINOS particle physics experiment. Today, after completing the hardware and testing the detector's systems, scientists announced the official startup of data-taking with the MINOS "far" detector, ahead of the scheduled completion in April 2004. Technicians will complete the assembly of a "near" detector, smaller in size than the far detector, at Fermilab in August 2004.

"This is an important milestone in the worldwide quest to develop neutrino science," said Dr. Raymond L. Orbach, director of DOE's Office of Science. "The MINOS detector in Soudan, Minnesota, together with the new Fermilab neutrino beam line, will provide a detailed look at the secrets behind neutrino oscillations. It will complement the large-scale neutrino projects in Japan, Canada and Europe. Significantly, the completion of the detector comes nine months ahead of schedule."

The looming 100-foot-long detector consists of 486 massive octagonal planes, lined up like the slices of a loaf of bread. Each plane consists of a sheet of steel about 25 feet high and one inch thick, covered on one side with a layer of scintillating plastic. To construct the detector, technicians had to transport all detector components in small sections via a narrow mine shaft in a tiny historic elevator cage that once transported miners underground.

"It was like building a ship in a bottle," said MINOS spokesperson Stanley Wojcicki, physics professor at Stanford University. "We needed to bring all the material underground and assemble it right there. The last step was to install a magnetic coil and energize it. MINOS is the only large-scale neutrino experiment underground that can separate neutrino and antineutrino interactions, allowing us to look for differences in their behavior."

At present, the new detector is recording cosmic ray showers penetrating the earth. The data will provide first tests of matter-antimatter symmetry in neutrino processes. In early 2005, when the construction of a neutrino beamline at Fermilab is complete, the experiment will enter its next phase. Scientists will use the far detector to "catch" neutrinos created at Fermilab's Main Injector accelerator in Batavia, Illinois. The neutrinos will travel 450 miles straight through the earth from Fermilab to Soudan - no tunnel needed. The detector will allow scientists to directly study the oscillation of muon neutrinos into electron neutrinos or tau neutrinos under laboratory conditions. More than a trillion man-made neutrinos per year will pass through the MINOS detector in Soudan. Because neutrinos rarely interact with their surroundings, only about 1,500 of them will make a collision with an atomic nucleus inside the detector. The rest will traverse the detector without leaving a track.

Scientists have discovered three different types of neutrinos: electron neutrinos, muon neutrinos, and tau neutrinos. The particles play an important role in stellar processes like the creation of energy in stars as well as supernova explosions. Experimental results obtained over the last five years have confirmed that the evasive particles have mass and switch back and forth among their three different identities while traveling through space and matter. Scientists expect the MINOS experiment to provide the best measurement of neutrino properties associated with the so-called "atmospheric" oscillations.

Funding for the MINOS experiment has come from the Office of Science of the U.S. Department of Energy, the British Particle Physics and Astronomy Research Council, the U.S. National Science Foundation, the State of Minnesota and the University of Minnesota. More than 200 scientists from Brazil, France, Greece, Russia, United Kingdom and the United States are involved in the project.

Fermilab is a national laboratory funded by the Office of Science of the U.S. Department of Energy, operated by Universities Research Association, Inc.

To view photos, please visit:
http://www.fnal.gov/pub/presspass/press_releases/MINOS_photos/
For more complete information on the MINOS experiment, please read the story in the June 27 issue of Ferminews, or visit:
http://www.fnal.gov/pub/ferminews/ferminews03-06-27/p4.html
which describes the completion of the construction.

Institutions Collaborating on MINOS:
See also http://www-numi.fnal.gov/collab/institut.html

Brazil:

France:

Greece:

Russia:

United Kingdom:

United States:




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