Quantum LEGO—building ultracold molecules

Quantum LEGO—building ultracold molecules – phys.org

So far, only gases of molecules that consist of two alkali atoms, atoms with a single electron that can form chemical bonds, have been created with the desired high density and ultracold temperature.

Quantum LEGO: Building Ultracold Molecules – Science and

The results expand the set of available tools for the ‘quantum LEGO’ of building ultracold molecules from atoms. Schreck: ‘With this knowledge, it should soon be possible for the first time to make an ultracold, high density gas of rubidium-strontium molecules.

Quantum LEGO: building ultracold molecules – IoP

Quantum LEGO: building ultracold molecules. 11 June 2018. Physicists dream of having a rich supply of ultracold molecules with specific electronic properties. A dense gas of such particles would have exciting applications in tests of fundamental physics, quantum-controlled …

Quantum LEGO: building ultracold molecules – nanowerk.com

Quantum LEGO: building ultracold molecules (Nanowerk News) Cooling matter is not easy. Atoms and molecules have the tendency to jump around, to rotate and to vibrate. Freezing these particles by slowing them down is a complicated process.

Quantum LEGO: Building Ultracold Molecules

Quantum LEGO: Building Ultracold Molecules Vincent Barbé, one of the researchers, inspects the experimental setup used to find the Feshbach resonances. The blue light comes from the laser beams that are used to cool the atoms.

Quantum LEGO—building ultracold molecules – Long Room

Molecules, on the other hand, are much harder to cool down so that they stand still. These particles consist of two or more atoms that are bound together, and as compound particles they are able to jiggle around in many more ways. Still, physicists would like to have a …

| Quantum LEGO—building ultracold molecules

Quantum LEGO—building ultracold molecules June 12, 2018 · · Posted in Quantum Physics · Cooling matter is not easy. Atoms and molecules have the tendency to jump around, to rotate and to vibrate. Freezing these particles by slowing them down is a complicated process. For individual atoms, physicists have figured out over the years how to

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Single Photon Detectors – vixra.org

Quantum LEGO The results expand the set of available tools for the ‘quantum LEGO’ of building ultracold molecules from atoms. [27] A new experiment that tests the limit of how large an object can be before it ceases to

Ultracold atoms and ultrafast lasers – phys.org

Quantum LEGO—building ultracold molecules June 12, 2018 Cooling matter is not easy. Atoms and molecules have the tendency to jump around, to rotate and to vibrate. Freezing these particles by

Kang-Kuen Ni, Harvard U.: Ultracold Molecules for Quantum

Sep 05, 2018 · The Ni group at Harvard works to build single ultracold molecules for fundamental studies of cold collisions and reactions and for applications that include quantum computers. Dr. Ni is a …