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Tilman Esslinger News
New Class of Material Simulated in Laser Trap
ZURICH, Nov. 14, 2014 — Laser “honeycombs” have enabled the simulation of theoretical materials with curious properties. By aligning multiple laser beams in such a way that they create standing waves with a hexagonal pattern, a team from ETH Zurich’s Institute for Quantum Electronics was able to trap a group of potassium atoms cooled to near absolute zero inside a vacuum chamber. The potassium atoms demonstrated behavior similar to that of electrons in graphene. “We work with atoms
Cold atoms in an optical lattice simulate graphene
ZURICH – The creation of a tunable system of ultracold atoms within a honeycomblike structure similar to that found in graphene may help identify the electronic properties of materials that have yet to be discovered. Professor Tilman Esslinger of the...
Cold Atoms in an Optical Lattice Simulate Graphene
ZURICH, March 15, 2012 — A tunable system of ultracold atoms was used to create a honeycomb-like structure similar to that found in graphene. The results may help identify the electronic properties of materials that have yet to be discovered.
(3 results found)
April 2024
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