October 08, 2008	Wednesday	Shawwal 08, 1429

STOCKHOLM, Oct 7: Two Japanese citizens and an American won the 2008 Nobel Prize in physics on Tuesday for discoveries that help explain the behaviour of the smallest particles of matter.

American Yoichiro Nambu, 87, of the University of Chicago, won half of the 10 million kronor ($1.4 million) prize for the discovery of a mechanism called spontaneous broken symmetry.

Makoto Kobayashi and Toshihide Maskawa of Japan shared the other half of the prize for discovering the origin of the broken symmetry that predicted the existence of at least three families of quarks in nature.

The academy said the trio “presented theoretical insights that give us a deeper understanding of what happens far inside the tiniest building blocks of matter.”

In physics, the idea of symmetry refers a kind of equality or equivalence in a situation. At the subatomic level, for example, you should not be able to tell whether you are watching events unfold directly or in a mirror, or whether a movie of those events is running forward or backward.

And particles should behave just like their alter egos, called antiparticles. If any of these rules is violated, the symmetry is broken. One big broken symmetry arose immediately after the big bang, when just a tiny bit more matter than antimatter was created. Because these two kinds of particles annihilate each other when they meet, that excess of matter was responsible for seeding the universe.

Nambu introduced his description of spontaneous symmetry violation into particle physics in 1960. The Nobel citation said Nambu’s theories now permeate the Standard Model of physics, which is the basic theory of how the universe operates. For example, they help explain why different particles have different masses.

In 1972, Kobayashi and Maskawa explained why an experiment eight years before had found that some subatomic particles called kaons failed to follow the rules of symmetry. Their explanation predicted the existence of three unknown subatomic particles called quarks. In fact, scientists discovered those predicted particles between 1974 and 1994.

Kobayashi and Maskawa also predicted that symmetry would be broken in the behaviour of other particles, called B-mesons. As early as 2001, scientists confirmed that prediction, too.

Nambu said he was awakened by the academy, which called to tell him about the prize. “I was surprised and honoured. I didn’t expect it.”—AP