Hydrogen hoops give superfluid clues.

Cooled below 2.18 kelvins, helium becomes extremely odd stuff. It turns into a superfluid su·per·flu·id
n.
A fluid, such as a liquid form of helium, exhibiting a frictionless flow at temperatures close to absolute zero.

su that can spontaneously crawl, frictionfree, over the lip of a cup (SN: 4/25/98, p. 271). For 6 decades, helium has been the only superfluid known. In the Sept. 1 SCIENCE, however, a group of German and Russian scientists offer experimental evidence that hydrogen might also become superfluid--under very specific circumstances.

Slava Grebenev of the Max Planck Institute in Gottingen, Germany and his colleagues captured rodlike, three-atom molecules called carbonyl sulfide within liquid-helium droplets. Then they painstakingly added rings of hydrogen molecules around the confined rods.

At a temperature of 0.38 K, a laser measurement of rotational energy suggested the rings were turning along with the carbonyl sulfide molecules. When the researchers then lowered droplet droplet

very small drop of fluid.

droplet nuclei
the finite particles of matter which are transmitted from animal to animal. temperatures to 0.15 K, they no longer detected that characteristic rotational energy, so the sulfide molecules no longer seemed to be burdened by their hydrogen hoops. The researchers say these data point to the onset of frictionfree superfluidity superfluidity, tendency of liquid helium below a temperature of 2.19°K; to flow freely, even upward, with little apparent friction. Helium becomes a liquid when it is cooled to 4.2°K;. in the encircling encircling (en·serˑ·k hydrogen.

Giacinto Scoles of Princeton University favors a different interpretation: The characteristic energy level isn't observed because at 0.15 K, the complex may have too little energy to reach the rotational levels permitted by quantum mechanics quantum mechanics: see quantum theory.

quantum mechanics

Branch of mathematical physics that deals with atomic and subatomic systems. It is concerned with phenomena that are so small-scale that they cannot be described in classical terms, and it is and thus may not rotate at all.

COPYRIGHT 2000 Science Service, Inc.
No portion of this article can be reproduced without the express written permission from the copyright holder.

Reader Opinion

Article Details
Printer friendly Cite/link Email Feedback
Author:	P.W.
Publication:	Science News
Article Type:	Brief Article
Geographic Code:	4EUGE
Date:	Sep 23, 2000
Words:	218
Previous Article:	Electrons get a crack at the nucleus.(Brief Article)
Next Article:	Letters.(Letter to the Editor)
Topics:	Hydrogen Research Superfluidity Research

Related Articles
Quantum swirls in superfluid helium.
'Baked Alaska' cooked up in liquid helium. (nucleation by high-energy particles)
Swirls of superfluid flow. (liquid helium in thin film produces distinctive signal) (Brief Article)
Superfluidity finding earns physics Nobel. (Douglas D. Osheroff, Robert C. Richardson and David M. Lee win 1996 Nobel Prize in Physics for...
Confining superfluid helium to a new state. (use of magnetic field to depress superfluid transition temperatures)
Cushions for drops of levitated helium. (magnetically levitated drops of liquid helium in temperatures near absolute zero will not coalesce)(Brief...
Whistling a superfluid quantum melody. (oscillating helium-3 superfluid)
Simulated hydrogen flows free of friction.(Brief Article)
Microdrops of superfluid.(superfluidity in cooled liquid helium)(Brief Article)
Tipsy superfluids: glimpsing off-kilter quantum clouds.(SCIENCE NEWS This Week)