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Comet hunter Rosetta arrives at target

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New Comet Photo Shows Beautiful Textures And Landscapes
Jesus Diaz, Gawker MediaAug 16, 2014, 06.20 AM IST

In the image, the comet's head (in the top half of the image) exhibits parallel linear features that resemble cliffs, and its neck displays scattered boulders on a relatively smooth, slumping surface. In comparison, the comet's body (lower half of the image) seems to exhibit a multi-variable terrain with peaks and valleys, and both smooth and rough topographic features.

Think about the process to get to this point. First some humans decide to build a little machine with some cameras and instrumentation and a daughter spacecraft. Then they put on top of a rocket to launch it on March 2, 2004. After a few orbits, the probe wen to Mars, then to back to Earth, then it kept slingshotting from asteroid to asteroid to Earth in a precise, beautiful cosmic game of billiards until it entered hibernation on June 8, 2011, en route to this comet.

On January it woke up (a technological miracle on itself), positioned itself to talk to its creators, start to take photos of its target, and now it has arrived to it, establishing an orbit around the comet 500 million miles from Earth. And to top this amazing journey, it will send a lander (A LANDER!) to its surface on November 11, 2014. All of it on its own. It's really amazing.
 
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Time to bring one home. Let's mine the mother fuckers inside out! :bounce:
 
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Scientists to Set Proper Orbit for Rosetta so that it could gather Better Images of Comet 67P
Submitted by Annika Linser on Tue, 08/19/2014 - 08:21

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The European Space Agency (ESA) has announced that Probe of Rosetta comet has reached 10 kilometers nearer to comet 67P/ Churyumov-Gerasimenko. Rosetta after arriving at the comet has sent several astonishing images of the comet and its surface.

As per sources, researchers plan to scan the comet surface to figure out the best place an accurate landing of the Philae (Lander). The ESA plans to land the probe on the comet on November 11.

The scientists and engineers have already started to set a proper orbit for Rosetta's probe. They say this adjustment in the orbit will be held on August 10, 13, and 17. Also, a mission called "Close Approach Trajectory" (CAT) has also been scheduled for August 20, 24, and 27. This mission will deal with changing the position of the spacecraft.

According to the researchers, Rosetta will orbit around the comet between 29km and 19k from September 10th to October 7th. They also said that the spacecraft will be positioned in such a way that it can collect the solar energy and can take better images of the comet.

As of now, the images collected by the Rosetta offer a detailed view about the surface of the comet. Photographs sent by Rosetta on August 7 from a distance of 65 miles depict that the comets' nucleus is 2.5 miles in diameter.
As per the report, the images sent by Rosetta also revealed the complex typography of the comet. All the images sent by Rosetta were taken by an onboard scientific imaging system, OSIRIS.

Rosetta was launched by ESA in March 2004 and was reawakened in January 2014. Rosetta mission's aim is to gather details about the prehistoric material that was left over during the birth of the solar system and is most probably present in the comet's nucleus.
Scientists to Set Proper Orbit for Rosetta so that it could gather Better Images of Comet 67P | Austrian Tribune

where is the color photo?
I've not seen a color photo. there is a 3-D photo in red/green on the internet. I didn't post it because I do not have red/green 3-D glasses myself.
 
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Rosetta: Landing site search narrows
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This annotated image depicts four of the five potential landing sites for the Rosetta mission's Philae lander. Image Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA

August 25, 2014
The European Space Agency's Rosetta mission has chosen five candidate landing sites on comet 67P/Churyumov-Gerasimenko for its Philae lander. Philae's descent to the comet's nucleus, scheduled for this November, will be the first such landing ever attempted. Rosetta is an international mission spearheaded by the European Space Agency with support and instruments provided by NASA.

Choosing the right landing site is a complex process. It must balance the technical needs of the orbiter and lander during all phases of the separation, descent and landing, and during operations on the surface, with the scientific requirements of the 10 instruments on board Philae. A key issue is that uncertainties in navigating the orbiter close to the comet mean that it is possible to specify any given landing zone only in terms of an ellipse - covering up to six-tenths of a square mile (one square kilometer) - within which Philae might land.

"This is the first time landing sites on a comet have been considered," said Stephan Ulamec, Philae Lander Manager at the German Aerospace Center, Cologne, Germany. "The candidate sites that we want to follow up for further analysis are thought to be technically feasible on the basis of a preliminary analysis of flight dynamics and other key issues - for example, they all provide at least six hours of daylight per comet rotation and offer some flat terrain. Of course, every site has the potential for unique scientific discoveries."

For each possible zone, important questions must be asked: Will the lander be able to maintain regular communications with Rosetta? How common are surface hazards such as large boulders, deep crevasses or steep slopes? Is there sufficient illumination for scientific operations and enough sunlight to recharge the lander's batteries beyond its initial 64-hour lifetime without causing overheating?

The potential landing sites were assigned a letter from an original pre-selection of 10 possible sites, which does not signify any ranking. Three sites (B, I and J) are located on the smaller of the two lobes of the comet and two sites (A and C) are located on the larger lobe.

"The process of selecting a landing site is extremely complex and dynamic; as we get closer to the comet, we will see more and more details, which will influence the final decision on where and when we can land," said Fred Jansen, Rosetta's mission manager from the European Space Agency's Science and Technology Centre in Noordwijk, The Netherlands. "We had to complete our preliminary analysis on candidate sites very quickly after arriving at the comet, and now we have just a few more weeks to determine the primary site. The clock is ticking and we now have to meet the challenge to pick the best possible landing site."

The next step in preparation for landing operations is a comprehensive analysis of each of the candidate sites, to determine possible orbital and operational strategies that could be used for Rosetta to deliver the lander to any of them. At the same time, Rosetta will move to within 31 miles (50 kilometers) of the comet, allowing a more detailed study of the proposed landing sites. By September 14, the five candidate sites will have been assessed and ranked, leading to the selection of a primary landing site. A fully detailed strategy for the landing operations at the selected site will be developed, along with a backup.

The landing of Philae is expected to take place in mid-November when the comet is about 280 million miles (450 million kilometers) from the sun. This will be before activity on the comet reaches levels that might jeopardize the safe and accurate deployment of Philae to the comet's surface, and before surface material is modified by this cometary activity.

Launched in March 2004, Rosetta was reactivated in January 2014 after a record 957 days in hibernation. Composed of an orbiter and lander, Rosetta's objectives since arriving at comet 67P/Churyumov-Gerasimenko earlier this month are to study the celestial object up close in unprecedented detail, prepare for landing a probe on the comet's nucleus in November, and track its changes through 2015, as it sweeps past the sun.

Comets are time capsules containing primitive material left over from the epoch when the sun and its planets formed. Rosetta's lander will obtain the first images taken from a comet's surface and will provide comprehensive analysis of the comet's possible primordial composition by drilling into the surface. Rosetta also will be the first spacecraft to witness at close proximity how a comet changes as it is subjected to the increasing intensity of the sun's radiation. Observations will help scientists learn more about the origin and evolution of our solar system and the role comets may have played in seeding Earth with water, and perhaps even life.

The scientific imaging system, OSIRIS, was built by a consortium led by the Max Planck Institute for Solar System Research (Germany) in collaboration with Center of Studies and Activities for Space, University of Padua (Italy), the Astrophysical Laboratory of Marseille (France), the Institute of Astrophysics of Andalusia, CSIC (Spain), the Scientific Support Office of the European Space Agency (Netherlands), the National Institute for Aerospace Technology (Spain), the Technical University of Madrid (Spain), the Department of Physics and Astronomy of Uppsala University (Sweden) and the Institute of Computer and Network Engineering of the TU Braunschweig (Germany). OSIRIS was financially supported by the national funding agencies of Germany (DLR), France (CNES), Italy (ASI), Spain, and Sweden and the ESA Technical Directorate.

Rosetta is an ESA mission with contributions from its member states and NASA. Rosetta's Philae lander is provided by a consortium led by the German Aerospace Center, Cologne; Max Planck Institute for Solar System Research, Gottingen; French National Space Agency, Paris; and the Italian Space Agency, Rome. NASA's Jet Propulsion Laboratory in Pasadena, California, a division of the California Institute of Technology, manages the U.S. participation in the Rosetta mission for NASA's Science Mission Directorate in Washington.

For more information on the U.S. instruments aboard Rosetta, visit:

http://rosetta.jpl.nasa.gov

More information about Rosetta is available at:

Rosetta | rendezvous with a comet
 
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Europe Unveils Comet Landing Site for Historic Rosetta Mission
By Miriam Kramer, Staff Writer | September 15, 2014 06:56am ET

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The Philae comet lander on the European Rosetta spacecraft will land on Target J on the Comet 67P/Churyumov-Gerasimenko on Nov. 11, 2014. The European Space Agency unveiled the landing site on Sept. 15.

Mission controllers picked a drop zone called "Site J" as the primary target from five potential landing sites shortlisted in late August. If all goes well, the lander will touch down on the comet on Nov. 11.

Site J won't be called that forever. The European Space Agency will host a public competition to name the landing site. A backup landing site, called "Site C," has also been selected in case some unexpected issue arises with Site J.

A cross marks the landing spot on Comet Comet 67P/Churyumov-Gerasimenko for the Philae lander in this image captured by the lander's mothership, the Rosetta spacecraft. The European Space Agency, which runs Rosetta, unveiled the landing target on Sept. 15, 2014, with touchdown set for Nov. 11.

"Site J in particular offers us the chance to analyse pristine material, characterise the properties of the nucleus, and study the processes that drive its activity."

While mission controllers think that Site J is the best area for Philae to land, it doesn't mean the landing will be a cakewalk. The historic landing will be the first time a space agency has attempted to soft-land a probe on a comet.

The $1.7 billion (1.3 billion euros) Rosetta mission arrived at Comet 67P/C-G in early August, and since then, scientists have been using the spacecraft's instruments to scope out the terrain of the comet in the hopes of finding a good site to set down Philae. If all goes according to plan, Philae should be released to the comet's surface on Nov. 11.

Philae will harpoon itself to the comet once it reaches the chosen landing site. The lander will study the comet from the surface while Rosetta takes measurements from orbit. Rosetta is expected to travel with the comet through space until at least August 2015, when Comet 67P/C-G makes its closest approach with the sun in its 6.5-year orbit.

ESA launched the Rosetta spacecraft and Philae into space in 2004. The probes traveled for 10 years, crossing 4 billion miles (6 billion km) of deep space before finally reaching their comet target.

Europe Unveils Comet Landing Site for Historic Rosetta Mission
 
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15 September 2014 Last updated at 05:14 ET
Rosetta: Audacious comet landing site chosen
By Jonathan AmosScience correspondent, BBC News, Paris

The plan still is to make the landing attempt on 11 November.

The Rosetta probe will despatch its piggybacked Philae robot from a distance of about 10km to 67P.

This spider-like device will then hope to engage the surface at "walking pace", deploying screws and harpoons in an effort to lock itself down to an object that has very little gravitational attraction.

Esa says it will be a one-shot opportunity. Events will be taking place so far away that real-time radio control will be impossible.

Instead, the process will have to be fully automated with the final commands uploaded to Rosetta and Philae several days in advance.

The choice of landing site follows a weekend of deliberations in Toulouse, France.

Mission team-members gathered to assess the latest imagery downlinked from Rosetta, which has been closely tracking 67P now since early August.

Five potential landing locations were on the table, and these have now been reduced to just two - a primary and a back-up.

Both will be studied further in the coming weeks before a final go/no-go decision is made in mid-October.

The favoured location is identified for the moment simply by the letter "J". (A public naming competition will run in due course).

On 67P's smaller lobe, it has good lighting conditions, which for Philae means having some periods of darkness also to cool its systems.

"It's relatively flat, but there are still some cliffs in this terrain; there are still boulders. So, it's not easy to land on 'J'," explained Philae project manager Stephan Ulamec from the German Space Agency.

"We're getting very close now, and it is fascinating but I have to say also quite frightening to some degree - that 20 years of work boils down now to just a few hours. Are we going to be successful, or will we be unlucky, hitting a boulder that just happens to be under the lander?"

The back-up site is situated on the larger of 67P's lobes. Its designation through the selection process has been the letter "C".

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Getting Philae down safely to any location on the comet is going to be an immense challenge
It hosts a range of surface features, including depressions, cliffs and hills, but - crucially - many smooth plains, also.

More detailed mapping of J and C is ongoing.

This past week, Rosetta manoeuvred into an orbit just 30km from the 67P, enabling its camera system to see details that can be measured on the sub-metre scale.

For landing, such information only has a certain usefulness, however, as the "hands-off" touchdown can only be targeted with a best precision that will likely run to hundreds of metres.

And that error is larger than any of the apparently smooth terrains on the reachable parts of the comet

The whole separation, descent and landing procedure is expected to take seven hours.

If Philae gets down successfully into a stable, operable configuration, it would represent a historic first in space exploration.

But Esa cautions that this high-risk venture should really be seen as an "exciting extra" on the Rosetta mission.

But, of course, an in-situ analysis of the surface chemistry would be a huge boon to the mission overall, and this is what Philae aims to provide.

It will carry a drill to pull up comet samples into an onboard laboratory.

And, indeed, any surface information gathered by Philae will provide important "ground truth" for Rosetta's remote-sensing observations.

"If we get only a few measurements and a few samples, we will have been successful," said Jean-Pierre Bibring, the co-principal investigator on Philae.

"We'd like to complete the first science sequence, which is two days on the comet. But for understanding activity on the comet, we also need the long-term science. That would be a matter of a few weeks, not necessarily a few months."

In any case, engineers do not expect Philae to survive beyond about March, when it will likely succumb to overheating.

But irrespective of the outcome on 11 November, Rosetta will continue to follow 67P for at least a year.

The probe will get a grandstand view of the comet as it warms on a swing around the Sun.

67P's ices will vaporise, throwing jets of gas and an immense cloud of dust out into space.

Holger Sierks, the principal investigator on Rosetta's Osiris camera system, will soon be acquiring pictures of the surface of 67P that resolve features down to just 20cm across.

He expects the mission to yield some profound knowledge.

"I feel this is really a historic moment in science. It's unprecedented; it's a quantum step in cometary science," he told BBC News.

"We will achieve centimetre resolution, getting us closer to understanding the origins of the Solar System and its building blocks 4.5 billion years ago."

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BBC News - Rosetta: Audacious comet landing site chosen
 
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The European Space Agency’s Rosetta mission will deploy its lander, Philae, to the surface of Comet 67P/Churyumov–Gerasimenko on 12 November.

Philae’s landing site, currently known as Site J, is located on the smaller of the comet’s two ‘lobes’, with a backup site on the larger lobe. The sites were selected just six weeks after Rosetta arrived at the comet on 6 August, following its 10-year journey through the Solar System

<iframe src="Philae’s descent and science on the surface 439242 - ESA embed video" width="640" height="360" frameborder="0"></iframe>

Rosetta to deploy lander on 12 November / Rosetta / Space Science / Our Activities / ESA
 
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European spacecraft catches comet belching

European Space Agency's Rosetta probe, which is currently circling Comet 67P/Churyumov-Gerasimenko, captured images of the comet ejecting gas and dust as it heats from the approaching sun.

By Mike Wall, SPACE.com Senior Writer OCTOBER 6, 2014
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A European spacecraft's comet companion is starting to wake up as it gets closer and closer to the sun.

The European Space Agency's Rosetta probe, which arrived in orbit around Comet 67P/Churyumov-Gerasimenko in August after a 10-year deep-space chase, has photographed jets of gas and dust erupting from the icy wanderer's surface.

"The main talking point of this image is the spectacular region of activity at the neck of 67P/C-G," European Space Agency (ESA) officials wrote in a description of the photo, a four-image montage taken on Sept. 26 when Rosetta was 16 miles (26 kilometers) from the comet.

"What we’re seeing is the product of ices sublimating and gases escaping from inside the comet, carrying streams of dust out into space," they added. "As the comet gets progressively closer to the sun along its orbit, the surface will become warmer, and the level of activity will increase, producing a vast coma around the nucleus, along with a tail."

European spacecraft catches comet belching (+video) - CSMonitor.com
 
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Scientists name one of the largest boulders on Rosetta's comet after an Egyptian pyramid
Oct 10, 2014
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Close-up of the boulder Cheops as it casts a long shadow on the surface of comet 67P/Churyumov-Gerasimenko. Cheops has a size of approximately 45 meters and is the largest structure within an a group of boulders located on the lower side of …more
The scientific imaging system OSIRIS on board ESA's spacecraft Rosetta has caught a spectacular glimpse of one of the many boulders that cover the surface of comet 67P/Churyumov-Gerasimenko. With a maximum extension of approximately 45 meters it is one of the larger structures of this kind on the comet and stands out among a group of boulders located on the lower side of 67P's larger lobe. Since this cluster of boulders reminded the scientists of the pyramids of Giza, the boulder has been named Cheops after the largest pyramid within the Giza Necropolis. The boulder-like structures that Rosetta has revealed on the surface of 67P in the past months are among the comet's most striking and mysterious features.

The large boulder now dubbed Cheops was seen for the first time in images obtained in early August upon Rosetta's arrival at the comet. In the past weeks as Rosetta has navigated closer and closer to the comet's surface, OSIRIS imaged the unique structure again – but this time with a much higher resolution of 50 centimeters per pixel.

As many of the smaller and larger boulders currently being mapped by the OSIRIS team, Cheops stands out from the darker underground. The highly resolved image now startles scientists with striking details. "The surface of Cheops seems to be very craggy and irregular", OSIRIS Principal Investigator Holger Sierks from the Max Planck Institute for Solar System Research (MPS) in Germany describes. Especially intriguing are small patches on the boulder's surface displaying the same brightness and texture as the underground. "It looks almost as if loose dust covering the surface of the comet has settled in the boulder's cracks. But, of course, it is much too early to be sure", says Sierks.

Apart from their size distribution, almost all properties of 67P's many boulders are still a mystery to researchers. What material are they made of? What are their physical properties such as density and stability? How where they created? As OSIRIS continues to monitor the comet's surface in the next months the team hopes for clues. "If, for example, the boulders are exposed by cometary activity or are displaced following the comet's gravity field, we should be able to track this down in our images", says Sierks.

Tomorrow, Rosetta will begin its Close Observation Phase reaching a distance of only 10 kilometers from the comet's surface – and giving OSIRIS a chance at an even closer view of one of 67P's many mysteries.

Rosetta is an ESA mission with contributions from its member states and NASA. Rosetta's Philae lander is provided by a consortium led by DLR, MPS, CNES and ASI. Rosetta will be the first mission in history to rendezvous with a comet, escort it as it orbits the Sun, and deploy a lander to its surface.

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The group of boulders in the center of this image reminded scientists of the Giza Necropolis. The largest boulder has therefore been named Cheops. Credit: ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DA

Scientists name one of the largest boulders on Rosetta's comet after an Egyptian pyramid
 
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