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NASA spacecraft confirms theories, sees surprises at Mercury | Astronomy.com
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NASA spacecraft confirms theories, sees surprises at Mercury

MESSENGER is showing detailed planetary features in sharper focus as well as collecting extensive measurements of the chemical composition of Mercuryò??s surface and topography and gathering global observations of the planetò??s magnetic field.
Degas
This spectacular view of the crater Degas was obtained as a high-resolution targeted observation (296 feet [90 meters] per pixel). Impact melt coats its floor, and as the melt cooled and shrank, it formed the cracks observed across the crater. For context, Mariner 10ò??s view of Degas is shown at left. Degas is 32 miles (52 kilometers) in diameter and is centered at 37.1ÒÀ N, 232.8ÒÀ E.
NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington
NASA scientists are making new discoveries about the planet Mercury. Data from MESSENGER, the first spacecraft to orbit Mercury, is giving scientists important clues to the origin of the planet and its geological history and helping them better understand its dynamic interior and exterior processes.

NASAò??s MErcury Surface, Space ENvironment, GEochemistry, and Ranging spacecraft, or MESSENGER, has been orbiting Mercury since March 18. To date, the spacecraft has provided tens of thousands of images showing detailed planetary features. The planetò??s surface previously had been seen only at comparatively low resolution, but it's now in sharper focus.

The spacecraft also has collected extensive measurements of the chemical composition of Mercuryò??s surface and topography and gathered global observations of the planetò??s magnetic field. Data now confirm that bursts of energetic particles in Mercuryò??s magnetosphere are a continuing product of the interaction of Mercuryò??s magnetic field with the solar wind.

ò??We are assembling a global overview of the nature and workings of Mercury for the first time,ò?? said MESSENGER principal investigator Sean Solomon of the Carnegie Institution of Washington. ò??Many of our earlier ideas are being cast aside as new observations lead to new insights. Our primary mission has another 3 Mercury years to run, and we can expect more surprises as our solar systemò??s innermost planet reveals its long-held secrets.ò??

Flyby images of Mercury had detected bright, patchy deposits on some crater floors. Without high-resolution images to obtain a closer look, these features remained only a curiosity. Now new detailed images have revealed these patchy deposits to be clusters of rimless, irregular pits varying in size from several hundred feet to a few miles wide. These pits are often surrounded by diffuse halos of more reflective material and are found on central peaks, peak rings, and rims of craters.

ò??The etched appearance of these landforms is unlike anything weò??ve seen before on Mercury or the Moon,ò?? said Brett Denevi, a staff scientist at the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland, and a member of the MESSENGER imaging team. ò??We are still debating their origin, but they appear to be relatively young and may suggest a more abundant than expected volatile component in Mercuryò??s crust.ò??

One of two instruments on the spacecraft designed to measure the quantity of key chemical elements on Mercury has made several important discoveries since the orbital mission began. Elemental ratios averaged over large areas of the planetò??s surface show that Mercuryò??s surface differs markedly in composition from that of the Moon.

Observations have revealed substantial amounts of sulfur at Mercuryò??s surface, lending support to prior suggestions from ground-based telescopic observations that sulfide minerals are present. This discovery suggests that the original building blocks from which Mercury formed may have been less oxidized than those that formed the other terrestrial planets. The result also hints that sulfur-containing gases may have contributed to past explosive volcanic activity on Mercury.

Topography data of Mercuryò??s northern hemisphere reveal the planetò??s large-scale shape and profiles of geological features in high detail. The north polar region is a broad area of low elevations, whereas the overall range in topographic heights seen to date exceeds 5 miles (9 kilometers).

Two decades ago, Earth-based radar images showed deposits thought to consist of water ice and perhaps other ices near Mercuryò??s north and south poles. These deposits are preserved on the cold, permanently shadowed floors of high-latitude impact craters. MESSENGER is testing this idea by measuring the floor depths of craters near Mercuryò??s north pole. The craters hosting polar deposits appear to be deep enough to be consistent with the idea that those deposits are in permanently shadowed areas.

During the first of three Mercury flybys in 1974, Mariner 10 discovered bursts of energetic particles in the planetò??s Earth-like magnetosphere. Four bursts of particles were observed on that flyby. Scientists were puzzled that no such strong events were detected by MESSENGER during any of its three flybys of the planet in 2008 and 2009. But now that the spacecraft is in near-polar orbit around Mercury, energetic events are being seen regularly.
NASA scientists are making new discoveries about the planet Mercury. Data from MESSENGER, the first spacecraft to orbit Mercury, is giving scientists important clues to the origin of the planet and its geological history and helping them better understand its dynamic interior and exterior processes.

NASAò??s MErcury Surface, Space ENvironment, GEochemistry, and Ranging spacecraft, or MESSENGER, has been orbiting Mercury since March 18. To date, the spacecraft has provided tens of thousands of images showing detailed planetary features. The planetò??s surface previously had been seen only at comparatively low resolution, but it's now in sharper focus.

The spacecraft also has collected extensive measurements of the chemical composition of Mercuryò??s surface and topography and gathered global observations of the planetò??s magnetic field. Data now confirm that bursts of energetic particles in Mercuryò??s magnetosphere are a continuing product of the interaction of Mercuryò??s magnetic field with the solar wind.

ò??We are assembling a global overview of the nature and workings of Mercury for the first time,ò?? said MESSENGER principal investigator Sean Solomon of the Carnegie Institution of Washington. ò??Many of our earlier ideas are being cast aside as new observations lead to new insights. Our primary mission has another 3 Mercury years to run, and we can expect more surprises as our solar systemò??s innermost planet reveals its long-held secrets.ò??

Flyby images of Mercury had detected bright, patchy deposits on some crater floors. Without high-resolution images to obtain a closer look, these features remained only a curiosity. Now new detailed images have revealed these patchy deposits to be clusters of rimless, irregular pits varying in size from several hundred feet to a few miles wide. These pits are often surrounded by diffuse halos of more reflective material and are found on central peaks, peak rings, and rims of craters.

ò??The etched appearance of these landforms is unlike anything weò??ve seen before on Mercury or the Moon,ò?? said Brett Denevi, a staff scientist at the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland, and a member of the MESSENGER imaging team. ò??We are still debating their origin, but they appear to be relatively young and may suggest a more abundant than expected volatile component in Mercuryò??s crust.ò??

One of two instruments on the spacecraft designed to measure the quantity of key chemical elements on Mercury has made several important discoveries since the orbital mission began. Elemental ratios averaged over large areas of the planetò??s surface show that Mercuryò??s surface differs markedly in composition from that of the Moon.

Observations have revealed substantial amounts of sulfur at Mercuryò??s surface, lending support to prior suggestions from ground-based telescopic observations that sulfide minerals are present. This discovery suggests that the original building blocks from which Mercury formed may have been less oxidized than those that formed the other terrestrial planets. The result also hints that sulfur-containing gases may have contributed to past explosive volcanic activity on Mercury.

Topography data of Mercuryò??s northern hemisphere reveal the planetò??s large-scale shape and profiles of geological features in high detail. The north polar region is a broad area of low elevations, whereas the overall range in topographic heights seen to date exceeds 5 miles (9 kilometers).

Two decades ago, Earth-based radar images showed deposits thought to consist of water ice and perhaps other ices near Mercuryò??s north and south poles. These deposits are preserved on the cold, permanently shadowed floors of high-latitude impact craters. MESSENGER is testing this idea by measuring the floor depths of craters near Mercuryò??s north pole. The craters hosting polar deposits appear to be deep enough to be consistent with the idea that those deposits are in permanently shadowed areas.

During the first of three Mercury flybys in 1974, Mariner 10 discovered bursts of energetic particles in the planetò??s Earth-like magnetosphere. Four bursts of particles were observed on that flyby. Scientists were puzzled that no such strong events were detected by MESSENGER during any of its three flybys of the planet in 2008 and 2009. But now that the spacecraft is in near-polar orbit around Mercury, energetic events are being seen regularly.
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