First Scientific Results

Read the full paper or download a PostScript or PDF copy

or Look at our data page
SNO Logo

Background Information on the Sudbury Neutrino Observatory

SNO Logo

The Sudbury Neutrino Observatory is a unique neutrino telescope, the size of a ten-storey building, two kilometers underground in Inco's Creighton Mine near Sudbury, Ontario. It was planned, constructed and operated by a 100-member team of scientists from Canada, the United States and the United Kingdom. Through its use of heavy water, the SNO detector provides unique ways to detect neutrinos from the Sun and other astrophysical objects and measure their properties.

For many years, the number of solar neutrinos measured by other underground detectors had been found to be smaller than expected from theories of energy generation in the sun. This had led scientists to infer that either the understanding of the Sun was incomplete, or that the neutrinos were changing from one type to another in transit from the core of the Sun.

In results presented in June 2001, SNO scientists compared the number of electron-type neutrinos reaching the SNO detector to the number of neutrinos seen by a second reaction, which includes contributions from the other two types of neutrinos, making use of additional data from the Super-Kamiokande detector in Japan. The observed difference in these two numbers showed conclusively that neutrinos change their type enroute to Earth, and arrive as a mixture of electron neutrinos and the other two types.

The results to be announced in April 2002 are based on the SNO detector's ability, through a third type of neutrino reaction, to measure independently the total rate of all of the three known types of neutrinos. The new data could provide independent and more accurate information on the neutrino change in type and on the accuracy of models of the Sun.

The SNO detector consists of 1,000 tonnes of ultrapure heavy water enclosed in a 12-meter diameter acrylic plastic vessel, which in turn is surrounded by ultrapure ordinary water in a giant 22-meter diameter by 34-meter high cavity. Outside the acrylic vessel is a 17-meter diameter geodesic sphere containing 9,600 light sensors or photomultiplier tubes, which detect tiny flashes of light emitted as neutrinos are stopped or scattered in the heavy water. The flashes are recorded and analyzed to extract information about the neutrinos causing them. At a detection rate of about one neutrino per hour, many days of operation are required to provide sufficient data for a complete analysis. The laboratory includes electronics and computer facilities, a control room, and water purification systems for both heavy and regular water.

The construction of the SNO Laboratory began in 1990 and was completed in 1998 at a cost of $80 million (Canadian) with support from the Natural Sciences and Engineering Research Council of Canada, the National Research Council of Canada, the Northern Ontario Heritage Foundation, Industry, Science and Technology Canada, Inco Limited, the United States Department of Energy, and the Particle Physics and Astronomy Research Council of the UK. The heavy water is on loan from Canada's federal agency AECL with the cooperation of Ontario Power Generation, and the unique underground location is provided through the cooperation and support of Inco Limited. Measurements at the SNO Laboratory began in 1999, and the detector has been in almost continuous operation since November 1999 when, after a period of calibration and testing, its operating parameters were set in their final configuration.

In June 2001, the second phase of measurements with the SNO detector was begun, in which ultra pure sodium chloride (salt) was added to the heavy water core of the detector, to enhance signals for some of SNO's neutrino reactions and add further to the accuracy of SNO's neutrino determinations. A third phase of measurements, providing a different experimental sensitivity, is set to begin in 2003.

Further background information can be found on the SNO website: www.sno.phy.queensu.ca .

For further information

    Prof. Art McDonald, Queen's University
    Director
    Sudbury Neutrino Observatory Institute
    Creighton Mine, Lively Ontario
    (705) 692-7000
    FAX (705) 692-7001
    mcdonald@sno.phy.queensu.ca
Dr. Doug Hallman
Director of Communications
Sudbury Neutrino Observatory
Laurentian University
(705) 675-1151 Ext. 2231
FAX (705) 675-4868
edh@nu.phys.laurentian.ca
    Dr. Eugene Beier
    U.S. Co-spokesman
    University of Pennsylvania
    Philadelphia, PA, USA
    (215) 898-5960
    FAX (215) 898-8512
    geneb@hep.upenn.edu
Dr. David Wark
U.K. Co-spokesman
RAL/University of Sussex
Sussex, UK
01 235 445094
FAX 01 235 446733
d.wark1@physics.ox.ac.uk

Reference

Anne Kershaw, manager
Public Affairs Department
Queen's University
Kingston, ON, Canada
(613) 533-6000 Ext. 74038
FAX (613) 533-6652
www.queensu.ca
kershaw@post.queensu.ca

SNO Participating Institutions

    Canada
Contact(s)
Chris Waltham
David Sinclair
John Simpson
Doug Hallman, Clarence Virtue
Art McDonald, Aksel Hallin
  • Chalk River Laboratories
(participated until 1996)
  • National Research Council of Canada
(participated until 1991)

    United States

Contact(s)
Richard Hahn

Kevin Lesko
Andrew Hime
Gene Beier
Hamish Robertson
  • University of California at Irvine
(participated until 1989)
  • Princeton University
(participated until 1992)

    United Kingdom

Contact(s)
Nick Jelley, Dave Wark

Funding for SNO

SNO Sponsors

SNO Prime Contractors and Suppliers

Back URL: sno/DayNight/index.html (Last revised April 19 2002)
Mail problems/comments to qusno@sno.phy.queensu.ca