Ice Created In Nanoseconds By Sandia's Z Machine

X-Message-Number: 29320
From: "Basie" <>
Subject: Ice Created In Nanoseconds By Sandia's Z Machine
Date: Fri, 16 Mar 2007 13:09:21 -0500

Ice Created In Nanoseconds By Sandia's Z Machine
Science Daily - Sandia's huge Z machine, which generates temperatures hotter 
than the sun, has turned water to ice in nanoseconds. However, don't expect 
anything commercial just yet: the ice is hotter than the boiling point of 
water. "The three phases of water as we know them -- cold ice, room 
temperature liquid, and hot vapor -- are actually only a small part of 
water's repertory of states," says Sandia researcher Daniel Dolan. 
"Compressing water customarily heats it. But under extreme compression, it 
is easier for dense water to enter its solid phase [ice] than maintain the 
more energetic liquid phase [water]."


Daniel Dolan has used Sandia's Z machine to compress water into ice at 
extreme temperatures and pressures. (Credit: Bill Doty: DOE/Sandia National 
Laboratories)Ads by Google Advertise on this site


Sandia is a National Nuclear Security Administration (NNSA) laboratory.

In the Z experiment, the volume of water shrank abruptly and 
discontinuously, consistent with the formation of almost every known form of 
ice except the ordinary kind, which expands. (One might wonder why this ice 
shrank instead of expanding, given the common experience of frozen water 
expanding to wreck garden hoses left out over winter. The answer is that 
only "ordinary" ice expands when water freezes. There are at least 11 other 
known forms of ice occurring at a variety of temperatures and pressures.)

"This work," says Dolan, "is a basic science study that helps us understand 
materials at extreme conditions."

But it has potential practical value. The work, which appears online March 
11 in Nature Physics, was undertaken partly because phase diagrams that 
predict water's state at different temperatures and pressures are not always 
correct -- a fact worrisome to experimentalists working at extreme 
conditions, as well as those having to work at distances where direct 
measurement is impractical. For example, work reported some months ago at Z 
demonstrated that astronomers' ideas about the state of water on the planet 
Neptune were probably incorrect.

Closer at hand, water in a glass could be cooled below freezing and remain 
water, in what is called a supercooled state.

Accurate knowledge of water's behavior is potentially important for Z 
because the 20-million-ampere electrical pulses the accelerator sends 
through water compress that liquid. Ordinarily, the water acts as an 
insulator and as a switch. But because the machine is being refurbished with 
more modern and thus more powerful equipment, questions about water's 
behavior at extreme conditions are of increasing interest to help avoid 
equipment failure for the machine or its more powerful successors, should 
those be built.

One unforeseen result of Dolan's test was that the water froze so rapidly. 
The freezing process as it is customarily observed requires many seconds at 
the very least.

The answer, says Dolan, seems to be that very fast compression causes very 
fast freezing. At Z and also at Sandia's nearby STAR (Shock Thermodynamic 
Applied Research) gas gun facility, thin water samples were compressed to 
pressures of 50,000-120,000 atmospheres in less than 100 nanoseconds. Under 
such pressures, water appears to transform to ice VII, a phase of water 
first discovered by Nobel laureate Percy Bridgman in the 1930s. The 
compressed water appeared to solidify into ice within a few nanoseconds.

Ice VII has nothing to do with ice-nine, an entirely fictional creation of 
author Kurt Vonnegut in his 1963 novel Cat's Cradle. There, a few molecules 
of the invented substance acts as a precipitating seed to cause an extended 
chemical reaction that freezes almost all of Earth's water. Ice VII, on the 
other hand, only stays frozen as long as it is under enormous pressure. The 
pressure relenting, the ice changes back to ordinary water.

Nucleating agents, of course, are often used to hasten sluggish chemical 
processes, such as when clouds are "seeded" with silver iodide to induce 
rain. Dolan already had demonstrated, as a graduate physics student at 
Washington State University, that water can freeze on nanosecond time scales 
in the presence of a nucleating agent.

However, the behavior of pure water under high pressure remained a mystery.

Sandia instruments observed the unnucleated water becoming rapidly opaque --  
a sign of ice formation in which water and ice coexist -- as pressure 
increased. At the 70,000 atmosphere mark and thereafter, the water became 
clear, a sign that the container now held entirely ice.

"Apparently it's virtually impossible to keep water from freezing at 
pressures beyond 70,000 atmospheres," Dolan says.

For these tests, Z created the proper conditions by magnetic compression. 
Twenty million amperes of electricity passed through a small aluminum 
chamber, creating a magnetic field that isentropically compressed aluminum 
plates roughly 5.5 by 2 inches in cross section. This created a shockless 
but rapidly increasing compression across a 25-micron-deep packet of water.

The multipurpose Z machine, whose main use is to produce data to improve the 
safety and reliability of the US nuclear deterrent, has compressed spherical 
capsules of hydrogen isotopes to release neutrons -- the prerequisite for 
controlled nuclear fusion and essentially unlimited energy for humanity.

This work is sponsored by the NNSA. Other authors on the paper are Chris 
Deeney (now at NNSA), and Sandians Mark Knudson and Clint Hall.

Note: This story has been adapted from a news release issued by DOE/Sandia 
National Laboratories.

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