果冻影院

The study, published today in Icarus, reveals the charged nature of the dust particles and the important role of the Sun in forming the characteristic patterns.听

An international team led by researchers from 果冻影院 Mullard Space Science Laboratory (果冻影院 MSSL) successfully mapped the movement of dust particles in Comet C/2006 P1 McNaught, one of the brightest comets visible from Earth in the past 50 years.

They used images collected from two NASA spacecraft 鈥� STEREO and SOHO 鈥� to track the behaviour of individual dust particles, which are about the same size as those found in cigarette smoke.

Their findings indicate that the striations form when dust grains released from the comet鈥檚 head break up into smaller particles, forming long bands. The smallest grains in the neat bands can later be moved around by the solar wind, changing the tilt of parts of the bands.

鈥淯nderstanding how dust behaves in the tail 鈥� how it fragments and clumps together 鈥� has important implications for understanding similar processes that formed dust into asteroids, moons and even planets billions of years ago,鈥� explained first author, PhD student Oliver Price (果冻影院 MSSL).

Comets are cosmic crumbs of frozen gas, rock and dust left over from the formation of our solar system 4.6 billion years ago 鈥� and so they may contain important clues about our solar system鈥檚 early history. Those clues are unlocked as if from a time capsule when a comet鈥檚 elliptical orbit brings it close to the Sun.

Intense heat vaporizes the frozen gases and releases the dust within, which streams behind the comet, forming two distinct tails: a plasma tail carried by the solar wind 鈥� the constant flow of charged particles from the Sun鈥檚 atmosphere 鈥� and a dust tail.听听

The team studied images of one of the biggest and most structurally complex comets in recent history, Comet C/2006 P1 McNaught, over a two-week period in 2007.

They prepared a video simulation by compiling data mapping the location of each tiny speck of dust along with its physical characteristics and solar conditions at the time.

鈥淲e got really good data sets with this comet, but they were from different cameras on different spacecraft, which are all in different places,鈥� Price said. 鈥淚 was looking for a way to bring it all together to get a complete picture of what鈥檚 happening in the tail.鈥�

The team focused on a phenomenon that had previously eluded scientists 鈥� why the banded patterns in comet tails form, and also discovered clear evidence of another phenomenon: the fact that these patterns are sometimes disrupted.

鈥淲e noticed weird goings-on in the images of these striations, a disruption in the otherwise clean lines,鈥� Price said. 鈥淚 set out to investigate what might have happened to create this weird effect.鈥�

The rift seemed to be located at the , a boundary where the magnetic orientation, or polarity, of the charged solar wind changes direction.

Scientists have long known that a comet鈥檚 plasma tail is affected by the solar wind but they expected its visible dust tail to be unaffected by any electromagnetic changes nearby.

It was difficult to tell exactly what was going on, and where, because at roughly 100 kilometres per second, McNaught was rapidly traveling in and out of STEREO and SOHO鈥檚 view. The simulation allowed the team to study McNaught in detail, revealing dust particles being jolted out of position as the comet crossed the current sheet, breaking up each striation鈥檚 smooth, distinct lines.

鈥淚t鈥檚 like the striation鈥檚 feathers are ruffled when it crosses the current sheet,鈥� said co-author Professor Geraint Jones (果冻影院 MSSL). 鈥淚f you picture a wing with lots of feathers, as the wing crosses the sheet, lighter ends of the feathers get bent out of shape. For us, this is strong evidence that the dust is electrically charged, and that the solar wind is affecting the motion of that dust.鈥澨�

Scientists have long known the solar wind affects charged dust; missions like move electrically charged dust through the space near Jupiter and Saturn but it was a surprise to see the solar wind affecting larger and heavier dust particles in McNaught鈥檚 tail.

鈥淣ow that we see the solar wind changed the position of dust grains in McNaught鈥檚 tail, we can ask: Could it have been the case that early on in the solar system鈥檚 history, the solar wind played a role in organizing ancient dust as well?鈥� Professor Jones concluded.

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The first observations of striations forming have revealed new insights on the Sun鈥檚 effect on comet dust tails.

Credits: NASA鈥檚 Goddard Space Flight Center/Genna Duberstein

Links

• 果冻影院 Mathematical & Physical Sciences

Images

• Comet McNaught over the Pacific Ocean. Image taken from Paranal Observatory in January 2007.Credits: ESO/Sebastian Deiries

Source

Media contact

Bex Caygill

Tel:听+44 (0)20 3108 3846

Email: r.caygill [at] ucl.ac.uk

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