... traditional physics but must be described using the laws of quantum mechanics. The first Bose-Einstein condensates were generated in 1995 by Eric A. Cornell, Carl E. Wieman and Wolfgang Ketterle, who ...
... generation process in a bulk crystal, and so scientists have been looking for a more fundamental source of entangled light. Now, they may have found a candidate: Bose-Einstein condensates.
Physicists at the Physikalisch-Technische Bundesanstalt (Germany) have succeeded in producing a Bose-Einstein condensate from the alkaline earth element calcium. The use of alkaline earth atoms ...
... to trap and cool atoms of the isotope strontium-84 to form a Bose-Einstein condensate. If researchers can extend this achievement to other isotopes of strontium, the new Bose-Einstein condensate ...
... above absolute zero, with absolute zero being -273.15 on the Celsius scale. A prominent form of quantum matter, Bose-Einstein condensation (BEC), was predicted by Bose and Einstein in ...
... from observations of light, Einstein applied Bose’s work to matter. The Bose-Einstein Condensate(BEC) was ... under 2.2 K, found it behaved like Einstein’s theoretical BEC. Subsequent research confirmed ...
... certain sense "boring", in the quantum world new, fascinating states of matter such as Bose-Einstein condensates arise at ultralow temperatures. Moreover, he elaborated on the tremendous advances in ...
... , they study how atoms in a Fermi gas behave as they "cross over" from acting like a Bose Einstein Condensate (in which fermions pair up to form tightly bound molecules) to behaving like pairs of ...
... laser light. Rotation sensors, accelerometers or interferometers based on the coherence properties of Bose-Einstein condensates are among the envisioned possible applications, he said.
But for now, ...
(PhysOrg.com) -- Theoretically, quantum computing has the potential to work more efficiently and accurately than classical computing for certain processes, such as factoring. But quantum methods are ...
... two seemingly incompatible properties.
The underlying technologies of optical lattices and Bose-Einstein condensation were pioneered at NIST and have sparked a renaissance in atomic physics with ...
... rubidium-87 to form an ultracold state of matter known as a Bose-Einstein condensate. Then, laser light from two opposite directions bathes or “dresses” the rubidium atoms in the gas. ...
... three dimensions, cooling a gas of certain atoms to sufficiently low temperatures turns them into a Bose-Einstein condensate (BEC). As predicted in the 1920s (and first demonstrated in ...
... . Ho calculates that it would be pressed outward to the surface of the lattice, where a Bose-Einstein Condensate could absorb it.
After the BEC evaporated away, the researchers could turn down the ...
... . Other proposed analogue schemes have considered using supersonic fluid flows, ultracold bose-einstein condensates and nonlinear fiber optic cables. However, the predicted Hawking radiation in these ...
