The major goal of the MiniBooNE experiment, the first phase of the BooNE project, is either to confirm or refute startling experimental results reported by a group of scientists at the Los Alamos National Laboratory.

In 1995, the Liquid Scintillator Neutrino Detector collaboration stunned the particle physics community when it reported a few incidences in which the antiparticle of a neutrino had presumably transformed into a different type of antineutrino, a process called neutrino oscillation.

"Today, there exist three very different independent experimental results that indicate neutrino oscillations," said Janet Conrad, a physics professor at Columbia University and cospokesperson of the BooNE collaboration.

"Confirming the LSND result would suggest the existence of an additional kind of neutrino beyond the three known types. It would require physicists to rewrite a large part of the theoretical framework called the Standard Model."

Over the next two years, the BooNE collaboration will collect and analyze approximately one million particle events to study the quantum behavior of neutrinos. Although these ghost-like particles are among the most abundant particles in the entire universe, little is known about their role in nature.

"It is an exciting time for neutrino physics," said Department of Energy Office of Science Director Raymond Orbach. "In the past few years experiments around the world have made extraordinary neutrino observations, shattering the long- standing view that neutrinos have no mass. The MiniBooNE experiment has the potential for advancing the revolution of our understanding of the building blocks of matter."

The MiniBooNE experiment, under construction from October 1999 to May 2002, relies on an intense beam of muon neutrinos created by the Booster accelerator at Fermilab. About 1,500 feet from its production point, the neutrino beam traverses a 40-foot-diameter tank filled with ultraclean mineral oil.

The tank's interior is lined with 1,520 light-sensitive devices, called photomultiplier tubes, that record tiny flashes of light produced by neutrinos colliding with carbon nuclei inside the oil.

"We will operate the experiment 24 hours a day, seven days a week," said Bill Louis, a Los Alamos scientist and cospokesperson of the BooNE collaboration.

"We will be looking for oscillations of muon neutrinos into electron neutrinos. If nature behaves as LSND suggests, our detector will collect about one thousand electron neutrino events over the next two years. If not, we won't see any electron neutrinos. Either way, we'll get a definite answer."

The BooNE collaboration comprises 66 scientists from 13 institutions from across the United States. The 19-million- dollar MiniBooNE experiment has received funding both from DOE's Office of Science and the National Science Foundation.

"In addition to the importance of the science, MiniBooNE is an example of a successful partnership among federal agencies, universities and national laboratories," said Marvin Goldberg of the National Science Foundation.

"The project has also set new standards for education and public outreach in the field of high-energy physics. The small scale of the project allows undergraduate and graduate students to participate fully in all of the experimental components."

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