In a squeeze, nitrogen gets chunky.By applying brutal pressure, scientists have transformed a wisp (1) (Wireless ISP) An ISP that provides fixed or mobile wireless services to its customers. WISPs provide last mile access to rural areas and small villages as well as industrial parks at the edge of town. See ISP, fixed wireless and 802.11. See also WISPr. of nitrogen, the most abundant gas in our atmosphere, into an opaque solid. The novel substance has remarkable electronic properties, the researchers report. Moreover, it keeps its new form even when the pressure is removed. In the May 10 NATURE, Mikhail I. Eremets and his colleagues at the Carnegie Institution of Washington  The introduction to this article may be too long. Please help improve the introduction by moving some material from it into the body of the article according to the suggestions at (D.C.) describe how they created the
new substance using, a small anvil anvilIron block on which metal is placed for shaping, originally by hand with a hammer. The blacksmith's anvil is usually of wrought iron (sometimes of cast iron), with a smooth working surface of hardened steel. with diamond jaws. The device exerted pressures up to the equivalent of 2.4 million atmospheres. When the jaws let go, the unpressurized material remained stable as long as the researchers kept it at a frigid frig·id adj. 1. Extremely cold. 2. Persistently averse to sexual intercourse. 100 kelvins. The chemical bonds between nitrogen atoms in the new solid differ from the kind of bond holding ordinary nitrogen-gas molecules together. Consequently, the new substance packs tremendous energy into a small volume, notes Ho-kwang (David) Mao, a member of the Carnegie team. "If we could make enough of this material, it could be an [extraordinarily powerful] propellant pro·pel·lant also pro·pel·lent n. 1. Something, such as an explosive charge or a rocket fuel, that propels or provides thrust. 2. or explosive," he suggests. The bonds rearrange because the ordinary two-atom molecules of lower-pressure nitrogen break down under such enormous pressure. The atoms then reassemble re·as·sem·ble v. re·as·sem·bled, re·as·sem·bling, re·as·sem·bles v.tr. 1. To bring or gather together again: reassembled the band for a reunion tour. 2. as a chunk of the element in which each atom probably bonds to several neighbors. Signaling this changed state, electrical measurements Electrical measurements Measurements of the many quantities by which the behavior of electricity is characterized. Measurements of electrical quantities extend over a wide dynamic range and frequencies ranging from 0 to 1012 Hz. indicated that the nitrogen had become a semiconductor. These were the first electrical measurements on a material at such high pressure. Ordinary nitrogen gas doesn't conduct electricity. This success with nitrogen has rekindled high-pressure researchers' hope of reaching a long-sought goal: squeezing the lightest gas, hydrogen, into an atomic solid (SN: 8/30/97, p. 143). Solid hydrogen fascinates scientists for several reasons. For one thing, its creation in the laboratory could help reveal the nature of the interiors of giant gas planets, such as Jupiter. Also, the comparison of hydrogen with nitrogen under high pressure perplexes theorists. Of the two elements, hydrogen has the weaker molecular bonds, suggesting that it should break down into an atomic solid more easily. However, in experiments, hydrogen remains a molecular solid at far greater pressures than molecular nitrogen can endure. |
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