• NASA Scientists Find Diamonds and Other Treasures in Gold Rush Meteorit

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    https://www.nasa.gov/ames/nasa-scientists-find-diamonds-and-other-treasures-in-gold-rush-meteorite/


    NASA Scientists Find Diamonds and Other Treasures in Gold Rush Meteorite November 7, 2014

    [Image]
    Fragments of the Sutter's Mill meteorite fall collected by NASA Ames
    and SETI Institute meteor astronomer Peter Jenniskens in the evening of Tuesday April 24, 2012, two days after the fall. This was the second recovered find.
    Image Credit: NASA Ames/Eric James

    [Image]
    This is a secondary electron image of two large diamond crystals in the
    matrix of the Sutter's Mill number SM2 meteorite, as prepared by a focused
    ion beam. The origin of the diamonds is something of a mystery since they
    are considerably larger than those found in any chondritic meteorites.
    Image Credit: NASA Johnson/M. Zolensky

    [Image]
    The diamonds are transparent and colorless in this optical image of the
    same focused ion beam-prepared slice of Sutter's Mill number SM2.
    Image Credit: NASA Johnson/M. Zolensky

    Researchers digging deeper into the origins of the Sutter's Mill meteorite, which fell in California's Gold Country in 2012, found diamonds and other "treasures" that provide important new insight into the early days of
    our solar system. They report their results in thirteen papers in the
    November issue of Meteoritics & Planetary Science.

    "Sutter's Mill gives us a glimpse of what future NASA spacecraft may find
    when they bring back samples from a primitive asteroid," said consortium
    lead Peter Jenniskens of the SETI Institute in Mountain View, California,
    at NASA's Ames Research Center in Moffett Field, California. "From what
    falls naturally to the ground, much does not survive the violent collision with Earth's atmosphere."

    Jenniskens found one of the first and one of the most unusual of the Sutter's Mill meteorites before rain hit the area. In his search, Jenniskens was
    guided by Marc Fries of NASA's Johnson Space Center, in Houston, who describes in detail how Doppler weather radar enabled the rapid and pristine collection of the meteorites.

    "The two 10-micron diamond grains we found in this meteorite are too small
    to sparkle in a ring," said Mike Zolensky, space scientist of Johnson,
    working with associate professor Yoko Kebukawa late of Hokkaido University, Japan, "But their size is much larger than the nanometer-sized diamonds commonly found in such meteorites."

    Nanodiamonds are thought to originate in the atmospheres of stars. The
    larger diamonds found in Sutter's Mill may have had another origin closer
    to home.

    "We suspect that these diamonds are so-called xenoliths," says Kebukawa.
    "Bits and pieces that originated in the interior of other much larger
    parent bodies."

    University of California (UC), Davis researchers Akane Yamakawa and Qing-Zhu Yin studied the different forms of the element chromium, called isotopes.
    They found that at least five different stellar sources composed of mixtures of 54-chromium-rich and -poor materials must have contributed matter to
    the nascent solar system four and half billion years ago. Some of these materials remained in the Sutter's Mill meteorite.

    "The formation of the solar system did not fully erase and homogenize
    these signatures and Sutter's Mill provides the clearest record yet,"
    said Yin, also a co-lead of the Sutter's Mill Meteorite Consortium.

    Some fragments escaped alteration by liquid water, while others where
    heavily altered. Based on isotopes of the elements manganese and chromium, NASA Earth and Space Science Fellow Christine Jilly and colleagues now
    report when that happened.

    "We determined that minerals such as calcium and magnesium carbonate likely precipitated from liquid water 2.4 to 5.0 million years after the formation
    of the solar system," says Jilly. "It is possible that radioactive compounds in the meteorite's parent body heated the nascent planet to the point
    that water ice became liquid."

    In primitive meteorites like Sutter's Mill, some grains survive from what existed in the cloud of gas, dust and ices that formed the solar system.
    In Sutter's Mill, the liquid water appears to have destroyed the silicate
    type of these, according to Xuchao Zhao of the Chinese Academy of Sciences, working with NASA and UC Davis colleagues.

    The meteorite also was heated, perhaps as recent as during entry in Earth's atmosphere. Using a technique called thermoluminescense, Derek Sears,
    senior research scientist at Ames, determined the rock was heated to 572 degrees Fahrenheit (300 degrees Celsius) in the last 100,000 years.

    Other materials were heated on the parent body, differently at different locations. Zolensky found unusual materials not seen in any other meteorites, including a very unusual calcium sulfide called oldhamite, also suspected
    to be a xenolith.

    "I don't know of any similar meteorites that contain both heated and unheated materials," said Zolensky. "Some materials were heated to 932 degrees Fahrenheit (500 degrees Celsius), while others clearly were not."

    Michel Nuevo and Scott Sandford, both astrophysicists at Ames probed numerous grains with infrared spectroscopy, as did Mehmet Yesiltas and colleagues
    at the University of Central Florida. They confirmed that some portions
    of the Sutter's Mill meteorites were heated more than others, removing volatile organic compounds and causing chemical changes in the remainder.

    "We still found small amounts of amino acids - building blocks of proteins
    - in the pristinely collected stone by Jenniskens" says Aaron Burton,
    then at NASA's Goddard Space Flight Center in Greenbelt, Maryland, now
    at Johnson. "Indigenous amino acids were much less abundant in the Sutter's Mill samples than in other such meteorites."

    For more information, visit:

    http://cams.seti.org/index-SM.html

    http://onlinelibrary.wiley.com/doi/10.1111/maps.2014.49.issue-11/issuetoc

    [Images]
    Lisa Warren of Reno, Nevada, took these three photographs of the Sutter's
    Mill meteoroid in flight at Rancho Haven, using a hand-held Pentax K200D,
    f = 18 mm, digital SLR camera. The orange glow persists from the main
    48-km high breakup event.
    Image Credit: L. Warren; composite by P. Jenniskens/NASA Ames/SETI
    Media contact:

    Jessica Culler, 650-604-4789,
    NASA's Ames Research Center

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