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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
Retweeted The Nobel Prize (@NobelPrize):
— YANG Research Group (@zhengyanglab) October 5, 2016
BREAKING NEWS #NobelPrize in Physics 2016 to David Thouless, Duncan... https://t.co/cXsg4ZG6DS
BREAKING NEWS #NobelPrize in Physics 2016 to David Thouless, Duncan Haldane and Michael Kosterlitz http://pic.twitter.com/5jw75GIjRv
— The Nobel Prize (@NobelPrize) October 4, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
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— YANG Research Group (@zhengyanglab) October 5, 2016
Retweeted The Nobel Prize (@NobelPrize):
— YANG Research Group (@zhengyanglab) October 5, 2016
Member of the Nobel committee for physics explains topology using a... https://t.co/B3VOYGnWxA
Retweeted The Nobel Prize (@NobelPrize):
— YANG Research Group (@zhengyanglab) October 5, 2016
Member of the Nobel committee for physics explains topology using a... https://t.co/Gx02SarMfU
Member of the Nobel committee for physics explains topology using a cinnamon bun, a bagel and a pretzel https://t.co/gORO04UYam
— The Nobel Prize (@NobelPrize) October 4, 2016
Member of the Nobel committee for physics explains topology using a cinnamon bun, a bagel and a pretzel #NobelPrize
— The Nobel Prize (@NobelPrize) October 4, 2016
Retweeted The Nobel Prize (@NobelPrize):
— YANG Research Group (@zhengyanglab) October 5, 2016
Haldane has studied matter that forms threads so thin they can be... https://t.co/M2aoy6F6cb
Haldane has studied matter that forms threads so thin they can be considered one-dimensional. #NobelPrize
— The Nobel Prize (@NobelPrize) October 4, 2016
Retweeted The Nobel Prize (@NobelPrize):
— YANG Research Group (@zhengyanglab) October 5, 2016
Kosterlitz & Thouless have studied phenomena on surfaces or inside... https://t.co/oS9PRwUftC
Kosterlitz & Thouless have studied phenomena on surfaces or inside extremely thin layers that can be considered two-dimensional #NobelPrize
— The Nobel Prize (@NobelPrize) October 4, 2016
Retweeted The Nobel Prize (@NobelPrize):
— YANG Research Group (@zhengyanglab) October 5, 2016
Topology, key to Nobel Laureates’ discoveries, explains why electrical... https://t.co/Q5tzfl2SLG
Topology, key to Nobel Laureates’ discoveries, explains why electrical conductivity inside thin layers changes in integer steps #NobelPrize
— The Nobel Prize (@NobelPrize) October 4, 2016