Search Menu
Photonics Media Photonics Buyers' Guide Photonics Spectra BioPhotonics EuroPhotonics Vision Spectra Photonics Showcase Photonics ProdSpec Photonics Handbook
More News

Solar Neutrino Scientist, Nobel Winner Raymond Davis Dies

Facebook Twitter LinkedIn Email Comments
UPTON, N.Y., June 2, 2006 -- Raymond Davis Jr., a Nobel Laureate and retired chemist at the US Department of Energy’s Brookhaven National Laboratory, died May 31 at his home in Blue Point, N.Y., at the age of 91. He died of complications from Alzheimer’s disease, the lab said in a statement.

raymonddavis.jpgDavis won the 2002 Nobel Prize in Physics for detecting solar neutrinos, ghostlike particles produced in the nuclear reactions that power the sun. He shared the prize with Masatoshi Koshiba of Japan and Riccardo Giacconi of the US.

"Neutrinos are fascinating particles, so tiny and fast that they can pass straight through everything, even the earth itself, without even slowing down," said Davis after he received the Nobel award. "When I began my work, I was intrigued by the idea of learning something new. The interesting thing about doing new experiments is that you never know what the answer is going to be!"

Davis was the first scientist to detect solar neutrinos, the signature of nuclear fusion reactions occurring in the core of the sun. Devising a method to detect solar neutrinos based on the theory that the elusive particles produce radioactive argon when they interact with a chlorine nucleus, Davis constructed his first solar neutrino detector in 1961, 2300 feet below ground in a limestone mine in Ohio. Building on this experience, he mounted a full-scale experiment 4800 feet underground, in the Homestake Gold Mine in South Dakota. In research that spanned from 1967-1985, Davis consistently found only a third of the neutrinos that standard theories predicted. His results threw the field of astrophysics into an uproar, and, for nearly three decades, physicists tried to resolve the so-called "solar neutrino puzzle."

Experiments in the 1990s using different detectors around the world eventually confirmed the solar neutrino discrepancy.

"Davis’s lower-than-expected neutrino detection rate is now accepted by the international science community as evidence that neutrinos have the ability to change from one of the three known neutrino forms into another," according to the lab. "This characteristic, called neutrino oscillation, implies that the neutrino has mass, a property that is not included in the current standard model of elementary particles (in contrast, particles of light, called photons, have zero mass). Davis’s detector was sensitive to only one form of the neutrino, so he observed less than the expected number of solar neutrinos."

Brookhaven Lab’s solar neutrino research at the Homestake Gold Mine was funded, in succession, by the chemistry office of the Atomic Energy Commission, the Energy Research and Development Administration, and then by the Department of Energy’s Division of Nuclear Physics.

Davis earned a BS and an MS from the University of Maryland in 1937 and 1940, respectively, and a PhD in physical chemistry from Yale University in 1942. After his 1942-1946 service in the US Army Air Force and two years at Monsanto Chemical Co., he joined Brookhaven Lab’s Chemistry Department in 1948. He received tenure in 1956 and was named senior chemist in 1964.

After retiring from Brookhaven in 1984, Davis maintained an appointment in Brookhaven’s Chemistry Department as a research collaborator. In 1985, he joined the University of Pennsylvania to continue experiments at the Homestake Gold Mine with Professor Kenneth Lande. Davis had an affiliation with the university as a research professor.

From 1971-73, he was on the National Aeronautics and Space Administration’s Lunar Sample Review Board and was involved in the analysis of lunar dust and rocks collected by the crew of Apollo 11 on NASA’s historic first flight to the moon.

Davis was a member of the National Academy of Sciences and the American Academy of Arts and Sciences. He won numerous scientific awards, including the 1978 Cyrus B. Comstock Prize from the National Academy of Sciences; the 1988 Tom W. Bonner Prize from the American Physical Society; the 1992 W.K.H. Panofsky Prize, also from APS; the 1999 Bruno Pontecorvo Prize from the Joint Institute for Nuclear Research in Dubna, Russia; the 2000 Wolf Prize in Physics, which he shared with Masatoshi Koshiba, University of Tokyo, Japan; and the 2002 National Medal of Science.

Born in Washington, D.C., on Oct. 14, 1914, Davis is survived by his wife Anna; his sons Andrew, Roger, and Alan; his daughters Martha Kumler and Nancy Klemm; and 11 grandchildren.

For more information, visit:
Jun 2006
Basic ScienceBrookhaven National LaboratoryenergyneutrinosNews & FeaturesNobel LaureateNobel Prize in physicsRaymond Davis Jr.Sensors & Detectorssolar neutrinosUS Department of Energy

back to top
Facebook Twitter Instagram LinkedIn YouTube RSS
©2020 Photonics Media, 100 West St., Pittsfield, MA, 01201 USA,

Photonics Media, Laurin Publishing
x We deliver – right to your inbox. Subscribe FREE to our newsletters.
We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.