Nobel Prize in Physics goes to 3 scientists for revealing the 'secrets of exotic matter' - Action News
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Science

Nobel Prize in Physics goes to 3 scientists for revealing the 'secrets of exotic matter'

This year's Nobel Prize in Physics is divided among three scientists David Thouless, Duncan Haldane and Michael Kosterlitz for their work on "the secrets of exotic matter."

British-born researchers' work will help in 'future applications in both materials science and electronics'

Nobel committee members announce the latest award at the Royal Swedish Academy of Sciences in Stockholm on Tuesday. David Thouless, Duncan Haldane and Michael Kosterlitz, left to right on the screen, share the 2016 Nobel Prize in Physics. (Jonathan Nackstrand/AFP/Getty Images)

British-born scientists David Thouless, Duncan Haldane and Michael Kosterlitz were awarded this year's Nobel Prize in physics on Tuesday for discoveries on unusual states of matter that could result in improved materials for electronics or quantum computers.

The Royal Swedish Academy of Sciences said the laureates' work in the 1970s and '80s opened the door to a previously unknown world where matter takes unusual states or phase and helped"reveal the secrets of exotic matter".

"Thanks to their pioneering work, the hunt is now on for new and exotic phases of matter," the academy said. "Many people are hopeful of future applications in both materials science and electronics."

It cited the three for "theoretical discoveries of topological phase transitions and topological phases of matter."

Topology is a branch of mathematics that describes properties of objects.

The judges said that there is now hope that "topological materials will be useful for new generations of electronics and superconductors or in future quantum computers."

Nobel judges often award discoveries made decades ago to make sure they withstand the test of time.

Thouless, 82, is a professor emeritus at the University of Washington.Haldane, 65, is a physics professor at Princeton University in New Jersey.Kosterlitz, 73, is a physics professor at Brown University in Providence, Rhode Island.

Speaking by a phone link to a news conference in Stockholm,Haldanesaid he was "very surprised and very gratified" by the award, adding the laureates stumbled onto the discoveries.

British-born scientist Duncan Haldane of Princeton University poses for a portrait after winning the 2016 Nobel Prize in Physics, at his home in Princeton, N.J. (Dominic Reuter/Reuters)

"Most of the big discoveries are really that way," he said. "At least in theoretical things, you never set out to discover something new. You stumble on it and you have the luck to recognize what you've found is something very interesting."

Kosterlitz, a dual U.K.-U.S. citizen, said he got the news while heading to lunch in Helsinki, where he is currently a visiting professor atAaltoUniversity.

"I'm a little bit dazzled. I'm still trying to take it in," he told The Associated Press.

While most people are familiar with objects in three dimensions, the Nobel laureatesanalyzedmaterials so thin they have only two dimensions, or even one.

Scientists had once been skeptical that any interesting atomic-scale behaviour takes place in these settings, but the Nobel laureates proved them wrong, said PhillipSchewe, a physicist and writer at the University of Maryland in College Park.

For example,KosterlitzandThoulessshowed that, against expectations, two-dimensional materials could conduct electricity without any loss to resistance. That property is called superconductivity.

'Complete ignorance' an advantage

Kosterlitzsaid he was in his 20s at the time and that his "complete ignorance" was an advantage in challenging the established science.

"I didn't have any preconceived ideas," he said. "I was young and stupid enough to take it on."

British-born scientist Michael Kosterlitz, winner of the 2016 Nobel Prize in Physics, poses at Aalto University in Espoo, Finland, on Oct. 4. ( Lehtikuva/Roni Rekomaa via Reuters)

Their analysis relied on topology, which is the mathematical study of properties that don't change when objects are distorted. A doughnut and a coffee cup are equivalent topologically because they each have exactly one hole. In topology, properties change only in whole steps; you can't have half a hole.

Prize committee member Thor HansHanssonexplained the concept by holding up a cinnamon bun, a bagel and a pretzel with two holes in it to reporters in Stockholm.

Thoulesswas able to explain an experiment conducted with a very thin layer of material. Its electrical resistance varied in response to changes in a magnetic field, but while the strength of the field was changed smoothly, the resistance changed in sharply defined steps. This effect is so precise that it is now used to define the unit of electrical resistance, the ohm.

Nobel committee member DavidHavilandsaid this year's prize was more about theoretical discoveries even though they may result in practical applications.

"Topology is a very abstract branch of mathematics which isn't used so frequently in physics,"Havilandsaid. "But these theoreticians have come up with a description of these materials using topological ideas, which have proven very fruitful and has led to a lot of ongoing research about material properties."

This year's Nobel Prize announcements started Monday with the medicine award going to Japanese biologistYoshinoriOhsumifor discoveries onautophagy, the process by which a cell breaks down and recycles content.

The chemistry prize will be announced on Wednesday and the Nobel Peace Prize on Friday. The economics and literature awards will be announced next week.

'At least in theoretical thing, you never set out to discover something new. You stumble on it and you have the luck to recognize what you've found is something very interesting.-DuncanHaldane, NobelPrizewinner

Each prize has a purse of 8 millionkronor($1.2 million Cdn). The winners also collect a medal and a diploma at the award ceremonies on Dec. 10, the anniversary of prize founder Alfred Nobel's death in 1896.

Last year, Canadian scientist Arthur McDonald was awarded the prize forphysics.

McDonald, a native of Sydney, N.S., anda retired professor from Queen's University in Kingston, Ont., shared the prizewith Takaaki Kajita of the University of Tokyo. They were recognized for the discovery of neutrino oscillations and their contributions to experiments showing that neutrinos change identities.

With files from CBC News and Associated Press