雅思听力背景之天上掉钻石.

2017-08-07 作者: 192阅读

  这篇雅思听力背景的主要内容讲的是一件奇事,就是某地天上掉钻石的事情。天上除了掉过雨滴,竟然还掉过钻石,这是什么原因呢,有什么影响呢,还有一件大家比较关心的八卦就是会不会经常下啊,在哪里呀?

  Is It Raining Diamonds On Uranus

  Berkeley - October 1, 1999 - If experiments at the University of California, Berkeley, are any indication, future explorers of our solar system may well find diamonds hailing down through the atmospheres of Neptune and Uranus.

  These planets contain a high proportion of methane, which UC Berkeley researchers have now shown can turn into diamond at the high temperatures and pressures found inside these planets.

  "Once these diamonds form, they fall like raindrops or hailstones toward the center of the planet," said Laura Robin Benedetti, a graduate student in physics at UC Berkeley.

  The team, led by Benedetti and Raymond Jeanloz, professor of geology and geophysics, produced these conditions inside a diamond anvil cell, squeezing liquid methane to several hundred thousand times atmospheric pressure. When they focused a laser beam on the pressurized liquid, heating it to some 5,000 degrees Fahrenheit, diamond dust appeared.

  They report their experimental findings in a paper in the Oct. 1 issue of Science.

  The demonstration that methane can convert to diamond as well as other complex hydrocarbons in the interiors of giant planets like Neptune hint at a complex chemistry inside gaseous planets and even brown dwarf stars. Brown dwarfs are small, dim stars barely larger than the largest gas giant planets.

  "This is opening the door to study of the interesting types of chemical reactions taking place inside planets and brown dwarfs," Jeanloz said. "Now that technology is able to reproduce the high pressures and temperatures found there, we are getting much better quality information on the chemical reactions taking place under these conditions."

  "It is not amazing that chemistry like this happens inside planets, it&aposs just that most people haven&apost dealt with the chemical reactions that can occur," Benedetti said. "The interior of these planets may be much more complicated that our current picture."

  A simple calculation, for example, shows that the energy released by diamonds settling to the planet&aposs core could account for the excess heat radiated by Neptune, that is, the heat given off by Neptune in excess of what it receives from the sun.

  "What&aposs exciting to us is the application of this high-pressure chemistry to understanding the outer planets," Jeanloz said.

  "As more planets are found in unexpected orbits around other stars, the fects of internal chemical processes will need to be further clarified in order to obtain a general understanding of planet formation and evolution," the authors concluded in the Science paper.

  Our solar system&aposs other gas giant planets -- Jupiter and Saturn -- may also contain diamonds produced under such conditions, though they contain proportionately less methane than Neptune and Uranus. Based on theoretical calculations, Neptune and Uranus are estimated to contain about 10 to 15 percent methane under an outer atmosphere of hydrogen and helium. (See graphic for presumed internal structure of Neptune,

  Several groups of researchers have suggested that the methane in these planets could conceivably turn into diamond at fairly shallow depths, about one tenth of the way to the center. Nearly two decades ago, a group at Lawrence Livermore National laboratory shocked some methane and reported the formation of diamond bore the stuff evaporated. That group was led by retired scientist Marvin Ross and researchers William Nellis and Francis Ree.

  Recently some theorists in Italy also concluded that diamonds were likely.

  Benedetti and Jeanloz decided to try the obvious experiment -- squeeze liquid methane and see if they could make diamond dust.

  The liquid methane, cooled with liquid nitrogen, was placed in a diamond anvil cell and squeezed to between 10 and 50 billion pascals (gigapascals), or about 100,000 - 500,000 times atmospheric pressure. The researchers then heated the compressed methane with an infrared laser to about 2,000 to 3,000 Kelvin (3600-5400 degrees Fahrenheit).

  "It&aposs really cool to watch," said Benedetti. "When you turn on the laser the methane turns black because of all the diamonds created. The black diamond specks float in a clear hydrocarbon liquid melted by the laser."

  Raman spectroscopy confirmed the identity of the suspended specks, as did subsequent analysis with X-ray crystallography. The flecks were diamonds interspersed with hydrocarbons.

  Jeanloz said that the high temperature breaks up methane (CH4) into carbon and hydrogen, while high pressure condenses the carbon to diamond. Other types of hydrocarbons -- doubly and triply bonded carbon -- also were produced, apparently in the cooler areas outside that illuminated by the laser.

  Jeanloz and his team plan next to see what happens to other constituents of these planets -- ammonia and water -- at high temperatures and pressures.

  Coauthors of the paper with Benedetti and Jeanloz are post-doctoral researcher Jfrey H. Nguyen, now a scientist at Lawrence Livermore National Laboratory; geology graduate student Wendell A. Caldwell, Chinese visiting scholar Hongjian Liu and Michael Kruger, a former graduate student now in the physics department at the University of Missouri, Kansas City.

  Diamonds From The Sky

  Amherst - August 9, 1999 - In the Aug. 6 issue of the journal Science, University of Massachusetts geoscientist Stephen Haggerty contends that some of the carbon in diamonds comes from outer space.

  Haggerty argues against the long-held view that the carbon in diamond comes from the remains of plants and marine organisms as they decayed under the high temperatures and pressures of the Earth&aposs deep interior. The invited review is titled, "A Diamond Trilogy: Superplumes, Supercontinents, and Supernovae."

  Many in the scientific community have long theorized that diamonds are primarily the result of organic materials that were dragged into the Earth&aposs interior as one continental plate was thrust beneath another in a process called subduction.

  This theory holds that the organic material, when exposed to the extreme heat and pressure within the Earth for millions of years, produced the carbon in diamonds. But the fossil record, and the dating of diamonds, indicate that this carbon is at least three billion years older than animal and plant life.

  Haggerty suspects that some of the carbon in these diamonds was in fact produced in supernovae: the explosions of dying stars. The carbon was incorporated into our solar system, where it is the fourth most abundant element.

  This carbon, plus some that was brought to Earth on meteorites, may well be the source of diamonds, Haggerty says. The study of diamond has seen a recent burst of activity as new research methods have become available. The new theory is based on an evaluation of this scientific literature, he notes.

  Evidence lending weight to the "stardust" theory includes the antiquity of the diamonds, and the similarity of carbon isotopic ratios to those found in meteorites, Haggerty says.

  Also, the bulk composition of the Earth is chondritic; that is, similar to a class of meteorites called chondrites. Chondrites contain several forms of carbon, including diamonds older than our sun.

  "Because the early Earth was bombarded by meteorites," he says, "it is reasonable to conclude that the carbon in diamonds on the Earth is primordial."

  Scientists have shown that most diamonds are brought from the Earth&aposs interior to its surface by volcanoes. But the volcanoes that bring forth these precious stones are much younger than the diamonds themselves, according to Haggerty.

  "This combination of old diamonds and young volcanoes indicates that the diamonds were already formed when magma brought them to the surface," said Haggerty.

  Additionally, there were two geologically short time periods during which hundreds of diamond-producing volcanoes erupted all over the Earth. One group erupted about one billion years ago, and the other 100 million years ago.

  Haggerty suggests that the eruptions were the result of the "blooming" of molten plumes from the Earth&aposs core. The volcanoes occurred randomly around the planet, rather than along continental plate boundaries, lending support to the model of deep primary carbon.

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