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Kajita and McDonald win Nobel physics prize for work on neutrinos Kajita and McDonald win Nobel physics prize for work on neutrinos
(about 7 hours later)
The Nobel prize in physics has been awarded to Takaaki Kajita and Arthur McDonald for their work on subatomic particles called neutrinos. The Nobel prize in physics has been awarded to Takaaki Kajita and Arthur McDonald for discovering that elusive subatomic particles called neutrinos weigh something more than nothing.
The scientists from the University of Tokyo and Queen’s University, Kingston, Canada, have won the prize “for the discovery of neutrino oscillations, which shows that neutrinos have mass”. Named after the Italian for “little neutral one”, neutrinos have no electric charge and were long thought to have zero mass, but Kajita at the University of Tokyo and McDonald at Queen’s University in Kingston, Canada, showed otherwise.
Related: Nobel prize for physics announcement live With two separate detectors built deep underground, one a kilometre beneath a mountain in Gifu prefecture, and the other 2km down an old nickel mine in Ontario, the scientists discovered that neutrinos can flip from one form to another as they hurtle through space a chameleon-like behaviour that proves they have mass.
The Nobel committee said the discovery by Kajita and McDonald that neutrinos can alter their identities had “changed our understanding of the innermost workings of matter and can prove crucial to our view of the universe”. The Nobel committee said the discovery had “changed our understanding of the innermost workings of matter and can prove crucial to our view of the universe”.
Asked by reporters in a call following the Nobel announcement how it felt to have won the prize, McDonald described the discovery as a “eureka moment” and said: “It’s a very daunting experience needless to say. Fortunately, I have many colleagues as well who share this prize with me.”Asked by reporters in a call following the Nobel announcement how it felt to have won the prize, McDonald described the discovery as a “eureka moment” and said: “It’s a very daunting experience needless to say. Fortunately, I have many colleagues as well who share this prize with me.”
He said the work had been “a very friendly collaboration” and that “there’s great camaraderie associated with this work even those it has taken many years to try to accomplish it”. On hearing he had won, Kajita said it was “unbelievable”. At a press conference in Tokyo, he added: “I want to thank the neutrinos, of course. And since neutrinos are created by cosmic rays, I want to thank them, too.”
The pair’s work had solved a puzzling observation that, compared with theoretical calculations of the number of neutrinos expected to be bombarding the Earth, up to two-thirds were apparently missing from measurements. Neutrinos are among the most abundant particles in the universe and thousands of billions of them pass through each of us every second of the day without us noticing. Many were forged in the big bang, but others are created constantly through radioactive decay inside the Earth, by exploding stars, and in nuclear processes that power the sun.
Kajita and McDonald’s had discovered that the apparently missing subatomic particles had in fact changed identities. This implied that neutrinos, which physicists had thought were massless, must have mass, which in turn meant that the so-called standard model of physics cannot be complete in its explanation of the fundamental building blocks of the universe. Their existence was first postulated in 1930, but it was not until 1956 that two American physicists found traces of the particles, which come in three flavours, known as tau, electron and muon neutrinos.
In the process of analysing neutrinos coming from the sun, McDonald’s team were able to verify processes going on in its core. That work could be have practical application in developing nuclear fusion. Kajita and McDonald’s work solved a puzzling observation that, compared with theoretical calculations of the number of neutrinos expected to be bombarding the Earth from the sun, up to two-thirds were apparently not arriving.
Prof Jon Butterworth, head of the Department of Physics and Astronomy at University College London, said the work had “solved the longstanding solar neutrino problem, which was one of the things we were taught as students as being a weird anomaly which wasn’t understood - not enough neutrinos coming from the sun”. In 1998, Kajita’s team discovered that neutrinos created when cosmic rays slam into the Earth’s atmosphere changed flavours on their way to the Super-Kamiokande detector under Mount Kamioka in Japan. Then, on the other side of the world in 2001, McDonald’s team saw that neutrinos from the sun, detected by the Sudbury Neutrino Observatory in Canada, also switched identities.
The finding implied that neutrinos must have mass, a discovery that meant the so-called standard model of physics could not be complete in its explanation of the fundamental building blocks of the universe.
Scientists now know that the neutrino mass is more than a million times less than that of the electron. But because the particles are so abundant, the combined weight of neutrinos is estimated to be roughly equal to the combined weight of all the visible stars in the universe.
In the process of analysing neutrinos coming from the sun, McDonald’s team were able to verify processes going on in its core. That work could have practical applications in developing nuclear fusion.
Prof Jon Butterworth, head of the physics and astronomy department at University College London, said the work had “solved the longstanding solar neutrino problem, which was one of the things we were taught as students as being a weird anomaly which wasn’t understood – not enough neutrinos coming from the sun.
“The discovery opened up a whole field of neutrino physics which is still producing amazing science,” he added.“The discovery opened up a whole field of neutrino physics which is still producing amazing science,” he added.
The American theoretical physicist, Frank Wilczek, who won a Nobel in 2004 welcomed the news on Twitter: “Congrats to Kajita, McDonald, [Nobel Prize] in physics for neutrino oscillations. Awesomely beautiful experiments, fundamental result.”
Congrats to Kajita, McDonald, NP in physics for neutrino oscillations. Awesomely beautiful experiments, fundamental result @NobelPrize
He said he had come up with a physics metaphor for winning a Nobel - a “phase transition”.
Previous winners of the physics prize have included Albert Einstein, Niels Bohr, Werner Heisenberg and Paul Dirac. Only two women have ever won the Nobel physics prize. Marie Curie won in 1903 (with her husband Pierre, and Antoine Becquerel) for her work on radiation. The last woman to win was Maria Goeppert Mayer who won the prize in 1963 (along with J Hans D Jensen and Eugene Wigner) for her work on nuclear shell structure.Previous winners of the physics prize have included Albert Einstein, Niels Bohr, Werner Heisenberg and Paul Dirac. Only two women have ever won the Nobel physics prize. Marie Curie won in 1903 (with her husband Pierre, and Antoine Becquerel) for her work on radiation. The last woman to win was Maria Goeppert Mayer who won the prize in 1963 (along with J Hans D Jensen and Eugene Wigner) for her work on nuclear shell structure.
The Nobel in medicine or physiology was awarded on Monday to Tu Youyou, William Campbell and Satoshi Ōmura for advances that led to treatments for parasite-caused diseases including malaria.The Nobel in medicine or physiology was awarded on Monday to Tu Youyou, William Campbell and Satoshi Ōmura for advances that led to treatments for parasite-caused diseases including malaria.
The winners of the chemistry, literature and peace prizes are to be announced later this week. The economics prize will be announced on Monday 12 October. The winners of the chemistry, literature and peace prizes are to be announced this week. The economics prize will be announced on Monday 12 October.