NASA鈥檚 MESSENGER mission to Mercury carrying an $8.7 million University of Colorado Boulder instrument is slated to run out of fuel and crash into the planet in the coming days after a wildly successful, four-year orbiting mission chock full of discoveries.
The mission began in 2004, when the MESSENGER spacecraft launched from Florida on a seven year, 4.7 billion mile journey that involved 15 loops around the sun before the spacecraft settled in Mercury鈥檚 orbit in March 2011. Since then the Mercury Atmospheric and Surface Composition Spectrometer (MASCS), built by CU-Boulder鈥檚 Laboratory for Atmospheric and Space Physics, has been making measurements of Mercury鈥檚 surface and its tenuous atmosphere, called the exosphere.
鈥淭he spacecraft is finally running out of fuel, and at this point it鈥檚 just sort of skimming the planet鈥檚 surface,鈥 said Senior Research Scientist William McClintock of LASP, the principal investigator of the MASCS instrument for the mission. It could crash onto Mercury鈥檚 surface or run into towering cliff-like features known as scarps that are evidence of a planet-wide contraction as the object cooled, he said.
鈥淎 lot of people didn鈥檛 give this spacecraft much of a chance of even getting to Mercury, let alone going into orbit and then gathering data for four years instead of the original scheduled one-year mission.鈥 said McClintock. 鈥淚n the end, most of what we considered to be gospel about Mercury turned out to be a little different than we thought.鈥
Mercury is about two-thirds of the way closer to the sun than Earth and has been visited by only one other spacecraft, NASA鈥檚 Mariner 10, in 1974 and 1975. 蜜桃传媒破解版下载 half the size of a compact car, MESSENGER is equipped with a large sunshade and is toting a camera, a magnetometer, an altimeter and four spectrometers.
One surprise to the CU-Boulder scientists was the behavior of the thin, tenuous atmosphere of Mercury known as the exosphere. 鈥淲e thought the exosphere would be highly variable and episodic, and we discovered quite the opposite,鈥 said McClintock. 鈥淲e found it was very seasonal, like our climate on Earth. We saw the same patterns year after year, which was a big surprise.鈥
A number of wild discoveries have come from the MESSENGER mission: Mercury may have as much as 1 trillion metric tons of ice tucked in the dark recesses of its craters, despite its 800 degree Fahrenheit surface temperatures; dust from comets may have painted its surface dark with carbon; some of its craters were once filled with lava; it has a lopsided magnetic field and a gigantic iron core.
Despite the large iron core, very little of the element was found on the surface, said Greg Holsclaw, a LASP researcher who helped develop the MASCS instrument. 鈥淒espite clear evidence of volcanic activity, the abundance of iron was found to be very low,鈥 he said. 鈥淭his, combined with the presence of materials that vaporize at relatively low temperatures, indicates Mercury experienced a formation history unlike any other planet.鈥
During the mission, McClintock and his colleagues used MASCS to make the first detection of magnesium in the planet鈥檚 exosphere. The team also determined magnesium, calcium and sodium, the major elements observed with MASCS, show distinctive and different spatial patterns that repeat every Mercury year.
LASP Director Daniel Baker, also a co-investigator on the MESSENGER mission, is studying Mercury鈥檚 magnetic field and its interaction with the solar wind including violent 鈥渟ub-storms鈥 that occur in the planet鈥檚 vicinity. 鈥淢ESSENGER has taught us more in four years of orbiting our sun鈥檚 nearest neighbor than we鈥檝e learned in the prior several centuries put together,鈥 Baker said. 鈥淲e have come to understand much more deeply the geology, chemistry, atmospheric aspects and the space environment of a truly fascinating 鈥榤iniature鈥 world.鈥
Baker said CU-Boulder鈥檚 involvement in the MESSENGER mission has helped attract bright and energetic faculty, postdoctoral fellows and graduate students. Even undergraduates have been participating in the mission including senior Ryan Dewey, a 2014 Goldwater Scholarship winner who sought out Baker as a sophomore because he wanted to be at the forefront of the MESSENGER discoveries.
鈥淩yan is an exceptional student who has worked on Mercury science at a level often reserved for advanced graduate students,鈥 said Baker, noting Dewey was lead author on a 2013 scientific paper dealing with the interactions of Mercury鈥檚 magnetosphere and its space environment. 鈥淚 know this work will serve him well as he moves on to graduate school and a professional career after that.鈥
The fate of MESSENGER is not in doubt, said McClintock. 鈥淏efore long it鈥檚 going to be in pieces scattered across the surface of Mercury. But I don鈥檛 think anyone who has worked on the project will ever forget it,鈥 he said. 鈥淚t has been an extremely exciting mission, and a once-in-a-lifetime experience.鈥
CU-Boulder鈥檚 LASP has designed and built instruments that have visited or are en route to every planet in the solar system. As the MESSENGER mission to Mercury winds down, LASP has a student-built dust counter on NASA鈥檚 New Horizons mission, which launched in 2006 and will make its closest flyby of Pluto -- 7,000 miles -- on July 14. LASP also built instruments for NASA spacecraft now at Mars and Saturn.
The Applied Physics Laboratory at Johns Hopkins University manages the MESSENGER mission for NASA. Sean Solomon from the Lamont-Doherty Earth Observatory, Columbia University, is the MESSENGER principal investigator. For more information about MESSENGER visit . For more information about LASP, visit .
Contact:
William McClintock, 303-492-8407
william.mcclintock@lasp.colorado.edu
Daniel Baker, 303-492-0591
daniel.baker@lasp.colorado.edu
Gregory Holsclaw, 303-735-0480
gregory.holsclaw@colorado.edu
Jim Scott, CU-Boulder media relations, 303-492-3114
jim.scott@colorado.edu
Illustration of NASA鈥檚 MESSENGER spacecraft at Mercury
