Tuesday, October 7, 2008

Nobel Prize in Physics Awarded

Fitting that symmetry in elementary particle physics was chosen as the topic given the timing of the Large Hadron Collider. Also note that although the prize wasn't for string theory, Nambu has been a big contributor to string theory. From the New York Times:

1 American, 2 Japanese Share Nobel Physics Prize

An American and two Japanese physicists on Tuesday won the Nobel Prize in Physics for their work exploring the hidden symmetries between elementary particles that are the deepest constituents of nature.

Yoichiro Nambu, of the University of Chicago’s Enrico Fermi Institute, will receive half of the 10 million kroner prize (about $1.3 million) awarded by the Royal Swedish Academy of Sciences.

Makoto Kobayashi, of the High Energy Accelerator Research Organization (KEK) Tsukuba, Japan, and Toshihide Maskawa, of the Yukawa Institute for Theoretical Physics (YITP), Kyoto University, will each receive a quarter of the prize.

Ever since Galileo, physicists have been guided in their quest for the ultimate laws of nature by the search for symmetries, or properties of nature that appear the same under different circumstances.

However, in the 1960s, Dr. Nambu, who was born in Tokyo in 1921, suggested that some symmetries in the laws of nature might be hidden or “broken” in actual practice.

A pencil standing on its end, for example, is symmetrical but unstable and will wind up on the table pointing in only one direction or the other. The principle is now embedded in all of modern particle physics.

“You have to look for symmetries even when you can’t see them,” explained Michael Turner of the University of Chicago, who described his colleague as “the most humble man of all time.”

In 1972, Dr. Kobayashi and Dr. Maskawa, extending earlier work by the Italian physicist Nicola Cabibbo, showed that if there were three generations of the elementary particles called quarks, the constituents of protons and neutrons, this principle of symmetry breaking would explain a puzzling asymmetry known as CP violation. This was discovered in 1964 by the American physicists James Cronin and Val Fitch - a discovery that also won a Nobel prize.

C and P stand respectively for charge and parity, or “handedness.” Until then, physicists had naively assumed that if you exchanged positive for negative and left-handed and right-handed in the equations of elementary particles, you would get the same answer.

The fact that nature operates otherwise, physicists hope, is a step on the way to explaining why the universe is made of matter and not antimatter, one of the questions that the Large Hadron Collider, the new particle accelerator now preparing for operation, is designed to explore.

No comments: