Atom laser gets a full tank. (Physics).How do you handle the coldest atoms on Earth without heating them up? With a laser, says Aaron E. Leanhardt of the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, . That may seem like precisely what you don't need for the task. However, Leanhardt and his colleagues have now used a laser to grip clouds of ultracold atoms Ultracold atoms is a term used to describe atoms that are maintained at temperatures close to 0 kelvin (Absolute Zero), where their quantum-mechanical properties become important. and drag them 30 centimeters. Known as Bose-Einstein condensates, such clouds are made of atoms that are all in the same quantum state quantum state n. Any of the possible states of a system described by quantum theory. quantum state A description in quantum mechanics of a physical system or part of a physical system. . During the ride, the atoms stay cold because the laser beam is red--a color the atoms don't absorb--yet they feel its tug because of a technique known as optical tweezing, Leanhardt explains. By repeatedly creating condensates in a vacuum chamber and then laser-transporting them to a storage area, the scientists kept a condensate condensate, matter in the form of a gas of atoms, molecules, or elementary particles that have been so chilled that their motion is virtually halted and as a consequence they lose their separate identities and merge into a single entity. reservoir continuously stocked with Adj. 1. stocked with - furnished with more than enough; "rivers well stocked with fish"; "a well-stocked store" stocked furnished, equipped - provided with whatever is necessary for a purpose (as furniture or equipment or authority); "a furnished apartment"; no less than a million atoms, they report in an upcoming Science. That's a long-awaited step toward another goal, a laser that fires atoms instead of photons and has an indefinitely refillable supply of atoms, Leanhardt says. When the researchers manage to increase the condensate reservoir's capacity to about 10 million atoms, a nonstop atom laser may become a reality, he adds. Such lasers may open the way to novel fundamental-physics experiments and new realms of miniaturized circuits and other devices (SN: 5/8/99, p. 296).--P.W. |
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