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Physics Nobel Prize awarded to neutrino investigators

A Japanese and a Canadian scientist won the 2015 Nobel Prize for Physics on Tuesday for their discovery that neutrinos can oscillate flavors. 

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Takaaki Kajita of Japan, director of the Institute for Cosmic Ray Research and professor at the University of Tokyo, speaks with Japanese Prime Minister Shinzo Abe in Tokyo after learning he won the Nobel Prize in physics, Tuesday. Kajita shared the prize with Arthur McDonald of Queen's University in Canada for the discovery of neutrino oscillation.

Eugene Hoshiko/AP

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A Japanese and a Canadian scientist won the 2015 Nobel Prize for Physics on Tuesday for discovering that elusive subatomic particles called neutrinos have mass, opening a new window onto the fundamental nature of the universe.

Neutrinos are the second most bountiful particles after photons, the particles of light, with trillions of them streaming through our bodies every second, but their true nature has been poorly understood.

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Takaaki Kajita and Arthur McDonald's breakthrough was the discovery of a phenomenon called neutrino oscillation that has upended scientific thinking and promises to change understanding about the history and future fate of the cosmos.

"It is a discovery that will change the books in physics, so it is really major discovery," Barbro Asman, a Nobel committee member and professor of physics at Stockholm University, told Reuters.

In awarding the prize, the Royal Swedish Academy of Sciences said the finding had "changed our understanding of the innermost workings of matter and can prove crucial to our view of the universe."

For many years, the central enigma with neutrinos was that up to two-thirds fewer of them were detected on Earth than expected.

Kajita and McDonald, using different experiments, managed to explain this around the turn of the millennium by showing that neutrinos actually changed identities, or "flavors," and therefore must have some mass, however small.

McDonald told a news conference in Stockholm by telephone that this not only gave scientists a more complete understanding of the world at a fundamental level but could also shed light on the science behind fusion power, which drives the Sun and could one day be tapped as a source of electricity on Earth.

"Yes, there certainly was a Eureka moment in this experiment when we were able to see that neutrinos appeared to change from one type to the other in traveling from the Sun to the Earth," he said.

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Kajitais director of the Institute for Cosmic Ray Research and professor at University of Tokyo, while McDonald is professor Emeritus at Queen's University in Canada.

The 8 million Swedish crown ($962,000) physics prize is the second of this year's Nobels. Previous winners of the physics prize have included Albert Einstein, Niels Bohr and Marie Curie.

The prizes were first awarded in 1901 to honor achievements in science, literature and peace in accordance with the will of dynamite inventor and business tycoon Alfred Nobel.

The prize for medicine was awarded on Monday to three scientists for their work in developing drugs to fight parasitic diseases including malaria and elephantiasis. ($1 = 8.3151 Swedish crowns)

(Additional reporting by Sven Nordenstam; Editing by Alistair Scrutton and Alison Williams)