Physics.Three scientists who were the first to create an exotic, potentially useful state of matter called the Bose-Einstein condensate have won the 2001 Nobel Prize in Physics The Nobel Prize in Physics (Swedish: Nobelpriset i fysik) is awarded once a year by the Royal Swedish Academy of Sciences. It is one of the six Nobel Prizes. The first prize was awarded in 1901. . Carl E. Wieman of the University of Colorado University of Colorado may refer to:
In 1995, Wieman and Cornell together used rubidium-87 atoms to make the world's first Bose-Einstein condensate (SN: 7/15/95, p. 36). A few months later, Ketterle and his group repeated the feat with sodium atoms (SN: 12/2/95, p. 373). A Bose-Einstein condensate is a cloud of gas so extremely cold that its atoms settle into a single, shared quantum state. In effect, the cloud becomes a single superatom su·per·at·om n. See Bose-Einstein condensate. . To create such condensates, scientists must prevent the clouds from becoming liquids or solids. Part of the trick is in the choice of atoms and part is in the handling: The condensates form only at temperatures less than a few hundred billionths of a degree above absolute zero. The first inklings of this novel state of matter surfaced in 1924. That's when physicists Satyendra Nath Bose Noun 1. Satyendra Nath Bose - Indian physicist who with Albert Einstein proposed statistical laws based on the indistinguishability of particles; led to the description of fundamental particles that later came to be known as bosons Bose, Satyendra N. Bose and Albert Einstein jointly predicted the extraordinary phenomenon that now bears their names. However, the condensates weren't created until scientists developed lasers and ways to use them and other instruments to trap and cool atoms (SN: 10/25/97, p. 263). According to quantum mechanics, atoms behave both as particles and waves, which spread out in space. When the atoms get cold enough, their associated waves coalesce, enabling the formation of a superatom. By making the first Bose-Einstein condensate, Cornell and Wieman set off "a bombshell" in physics, says Theodor W. Hhnsch of the Max Planck Institute for Quantum Optics in Garching, Germany. That achievement, along with Ketterle's parallel work, was "the start of a big wave of excitement," he adds. Containing up to a billion atoms, Bose-Einstein condensates have given physicists a new window on the quantum world. The Royal Swedish Academy of Sciences The Royal Swedish Academy of Sciences or Kungliga Vetenskapsakademien is one of the Royal Academies of Sweden. The Academy is an independent, non-governmental scientific organization which acts to promote the sciences, primarily the natural sciences and mathematics. cited Ketterle, in particular, for exploiting the condensates to probe quantum physics and the nature of matter in previously impossible ways. Bose-Einstein condensates may also prove to have practical value. In 1997, Ketterle and his colleagues demonstrated that portions can be extracted intact like drops from a faucet (SN: 2/1/97, p. 71), a step that physicists described as the first atom laser. Since then, researchers have improved upon such lasers so that they can emit atoms in a beam (SN: 5/8/99, p. 296). Scientists are learning to use atom lasers to improve measurements of gravity, build more precise gyroscopes, and make yet more-accurate atomic clocks. Recently, Hansch's team and others have demonstrated that they can condense and then manipulate Bose-Einstein condensates on microchips (SN: 8/4/01, p. 73), a step perhaps toward new compact instruments. |
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