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Bagel, pretzel show twists of Nobel
Prize-winning work in physics
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 [October 11, 2016]
By Niklas Pollard and Ben Hirschler
STOCKHOLM/LONDON (Reuters) - Three
British-born scientists won the 2016 Nobel Prize in Physics on Tuesday
for revealing unusual states of matter, leading to advances in
electronics that could aid researchers trying to develop quantum
computers.
David Thouless, Duncan Haldane and Michael Kosterlitz, who all work at
U.S. universities, share the prize for their discoveries on abrupt
changes in the properties, or phases, of ultra-thin materials.
Their research centers on topology, a branch of mathematics involving
step-wise changes like making a series of holes in an object. The
difficult-to-grasp concept was illustrated by Nobel Committee member
Thors Hans Hansson at a news conference using a cinnamon bun, a bagel
and a Swedish style of pretzel with two holes.
"If you are a topolgist, it's only one thing that is really interesting
with these things," Hansson said. "The bagel has one hole, the pretzel
has two holes ... you cannot have half a hole, or 2-2/3 holes."
The Nobel Prize-winning discovery involved certain materials that go
through step changes that affect their electrical properties. The
changes are akin to the holes in baked goods, which can have no
intermediate steps between one hole or two holes.
(http://bit.ly/2dG4v3n)
One example is a superconductor, which at low temperatures conducts
electricity without resistance.
"Thanks to their pioneering work, the hunt is now on for new and exotic
phases of matter," the Royal Swedish Academy of Sciences said in
awarding the 8 million Swedish crown ($937,000) prize.
"Many people are hopeful of future applications in both materials
science and electronics."
Thouless, of the University of Washington in Seattle, was awarded half
the prize, with the other half divided between Haldane, of Princeton
University, and Kosterlitz, of Brown University.
"We really haven't understood ... the full amount of marvelous things
that quantum mechanics can do," Haldane told Reuters in an interview at
his home in Princeton, New Jersey. "It does things which we never
dreamed of and could actually be tremendously useful for all kinds of
new technologies."
'LONG OVERDUE'
Kosterlitz's colleague at Brown, Professor See Chen Ying, said he
considered the award long overdue.
"You never know, because there are exciting discoveries everywhere, so
every year we start thinking is this the year," Ying said in an
interview on Brown's campus in Providence, Rhode Island. "Personally, I
think it's long overdue."
Andy Schofield, a professor of theoretical physics at the University of
Birmingham, where Kosterlitz and Thouless carried out their early work
in the 1970s, said the new understanding of phase states was
particularly promising in computing.
[to top of second column] |
British-born scientist Michael Kosterlitz, winner of the 2016 Nobel
Prize in Physics, poses at Aalto University in Espoo, Finland
October 4, 2016. Lehtikuva/Roni Rekomaa/via REUTERS
"One of the most exciting technological implications is in
insulators that don't carry electricity normally but can be forced
to carry electrical current at the surface," he told Reuters.
"That's a very robust state, which gives a stability that is
essential to quantum computing."
Superfast quantum computers, one of the holy grails of science,
should be able to test multiple solutions to a problem at once and
could in theory solve in seconds problems that take today's fastest
machines years to crack.
Traditional computers use binary bits of information to store data
while quantum computers use "qubits" that can simultaneously be 0
and 1, making them ultra-fast but unstable.
Physics is the second of this year's crop of Nobels and comes after
Japan's Yoshinori Ohsumi was awarded the prize for medicine on
Monday.
There had been speculation this year's prize might be awarded for
the first detection of gravitational waves, the ripples in the
fabric of space-time first predicted a century ago by Albert
Einstein. The breakthrough, announced by international researchers
in February, may have come too late for the Nobel Committee.
The three researchers join the ranks of some of the greatest names
in science, including 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 the
Swedish dynamite inventor and business tycoon Alfred Nobel, who left
much of his wealth to establish the award.
For a graphic on Nobel laureates, click on: http://tmsnrt.rs/1jLPeM7
(Additional reporting by Bart Noonan, Andrew Hofstetter, Elly Park,
Anna Ringstrom, Bjorn Rundstrom, Simon Johnson, Johan Ahlander and
Scott Malone; Editing by Mark Trevelyan and David Gregorio)
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