Nobel Prize for key discoveries about subatomic particles
Oct. 06, 2015
STOCKHOLM (AP) — Two scientists won the Nobel Prize in physics Tuesday for key discoveries about a cosmic particle that whizzes through space at nearly the speed of light, passing easily through Earth and even your body.
Takaaki Kajita of Japan and Arthur McDonald of Canada were honored for showing that these tiny particles, called neutrinos, have mass. That's the quality we typically experience as weight.
"The discovery has changed our understanding of the innermost workings of matter and can prove crucial to our view of the universe," the Royal Swedish Academy of Sciences said in awarding the prize.
The work dispelled the long-held notion that neutrinos had no mass.
Neutrinos come in three types, or "flavors," and what the scientists actually showed is that neutrinos spontaneously shift between types. That in turn means they must have mass.
Kajita, 56, is director of the Institute for Cosmic Ray Research and professor at the University of Tokyo. McDonald, 72, is a professor emeritus at Queen's University in Kingston, Ontario.
McDonald told reporters in Stockholm by phone that the discovery helped scientists fit neutrinos into theories of fundamental physics.
Kajita, who initially told a news conference at his university that "my mind has gone completely blank. I don't know what to say," went on to stress that many people had contributed to his work.
"The universe where we live in is still full of unknowns," he said. "A major discovery cannot be achieved in a day or two. It takes a lot of people and a long time."
The existence of neutrinos was first proven in 1956. They come from a variety of sources in the cosmos, on Earth and in Earth's atmosphere. Most that reach Earth were created by nuclear reactions inside the sun. Trillions pass through your body every second.
Kajita showed in 1998 that neutrinos created in Earth's atmosphere and captured at the Super-Kamiokande detector in Japan had changed "flavors." Three years later, while working at Canada's Sudbury Neutrino Observatory, McDonald found that neutrinos coming from the sun also switched identities.
"It changes our understanding of the fundamentals of particle physics, and particles make up everything in the universe," said Robert G.W. Brown, chief executive officer of the American Institute of Physics.
Antonio Ereditato, director of the Albert Einstein Center for Fundamental Physics at the University of Bern, Switzerland, declared, "This is really one of the milestones in our understanding of nature."
The findings "really inspired a whole global community of scientists to drop what they were doing and try to understand the neutrino," said Joseph Lykken, deputy director of the Fermi National Accelerator Laboratory in Batavia, Illinois.
Still unknown: Just how much do neutrinos weigh?
"Neutrinos are a million times lighter than an electron, which is a charged version of a neutrino," said Guido Drexlin, a neutrino expert at the Karlsruhe Institute of Technology in Germany. Determining their weight is something his team hopes to start working on next year.
The Nobel winners will split the 8 million Swedish kronor (about $960,000) prize money. Each winner also gets a diploma and a gold medal at the prize ceremony on Dec. 10.
On Monday, the Nobel Prize in medicine went to scientists from Japan, the U.S. and China who discovered drugs that are now used to fight malaria and other tropical diseases.
The prize announcements continue with chemistry on Wednesday, literature on Thursday, the Nobel Peace Prize on Friday and the economics award next Monday.
Malcolm Ritter reported from New York. Malin Rising in Stockholm, Mari Yamaguchi in Tokyo and Frank Jordans in Berlin contributed to this report.