Rosetta Comet Lander Philae Has 'Gone To Sleep' After Batteries Run Out | HuffPost

Comet Lander Philae Has 'Gone To Sleep' As Batteries Run Out

Charlotte Meredith— The Huffington Post UK/ PA

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The European space probe which landed - awkwardly but spectacularly - on a comet earlier this week is "asleep", scientists have said, after its batteries ran out and were unable to recharge as it lay in the shadow of a crater wall.

The systems on board the Philae lander, which made scientific history this week, have shut down, the European Space Agency (ESA) said.

"Philae has fallen into 'idle mode' - a possibly long silence. In this mode, all instruments and most systems on board are shut down," the ESA said on its blog in a post entitled Our Lander's Asleep.

The probe is resting at an angle in the shadow of a crater wall more than half-a-mile from its planned landing site, scientists believe. One of its three legs appears to be suspended in space while the other two have made contact with the ground.

Contact was lost at 12.30am GMT and the next opportunity for communication is expected to be 10am.

But the history-making comet probe bowed out with a burst of valuable data from its instruments which had scientists celebrating late last night.

There is a chance that Philae could be re-awakened in the coming weeks or months as comet 67P/Churyumov-Gerasimenko flies closer to the Sun, allowing more energy to flow from the probe's solar panels.

Stephan Ulamec, lander manager, said: "Prior to falling silent, the lander was able to transmit all science data gathered during the First Science Sequence.

"This machine performed magnificently under tough conditions, and we can be fully proud of the incredible scientific success Philae has delivered."

It took 10 years for Philae and its Rosetta mothership to reach comet 67P/Churyumov-Gerasimenko after an epic journey across four billion miles of space.

Here is the latest image of the lander - it's a before and after so you can see where the lander actually is.

Late last night scientists said they may have made a breakthrough in their attempts to rescue Philae.

A report on the spacecraft's verified Twitter feed, Philae Lander @Philae2014, suggested the craft had successfully "hopped" into a new position, possibly one that would enable more sunlight to shine on its solar panels.

Earlier yesterday scientists said they were actively considering taking a risky gamble by using the probe's landing gear to jump it away from the darkness and into the light.

There were fears that such a manoeuvre might topple the craft over and end its mission.

Scientists are still not sure of the probe's location after Wednesday's rollercoaster landing which saw the dishwasher-sized craft bounce twice before coming to rest more than half a mile from its original landing site.

Two harpoons which were supposed to anchor Philae to the ground failed to deploy, causing the probe to shoot a kilometre (0.6 miles) into space after its initial touchdown.

The comet is a 2.5-mile wide rugged lump of ice and dust, more than 300 million miles from Earth, strewn with deep pits, craters, cliff walls and jagged outcrops.

While scientists try to save Philae, attention will also turn to Rosetta, which now has to manoeuvre from its post-separation path back into orbit.

STORY CONTINUES BELOW

Rosetta: A Visual History

At first it was just a model...(01 of19)

Seen here with European Space Agency Director of Science Prof Roger Bonnet in 2003. (credit:Matthew Fearn/PA Archive)

And then they built it for real.(02 of19)

Workers are seen at spacecraft Rosetta with thermal blankets during testing in the Large Space Simulator in the Netherlands in 2004. (credit:ASSOCIATED PRESS)

Preparing for launch,(03 of19)

The European Ariane V rocket, carrying spacecraft Rosetta, stands at its launching pad at the Kourou space base, French Guiana, Wednesday Feb. 25, 2004. (credit:ASSOCIATED PRESS)

The Launch.(04 of19)

On the 2 March 2004 Rosetta started its 10 year mission, launching from Europe’s Spaceport in Kourou, French Guiana.

And it left us behind.(05 of19)

This handout picture from the European Space Agency (ESA) retrieved on September 3, 2008 shows an artist's rendition of ESA's probe Rosetta leaving Earth. (credit:Getty Images)

This was the target.(06 of19)

This rather daunting image shows the size of the comet, providing some perspective of the titanic task that ESA is facing.

It's big.(07 of19)

(08 of19)

Artist's impression of the European Space Agency (ESA) probe Rosetta with Mars in the background. It also passed by Jupiter, slingshotting around the planet to gain speed in order to catch up with Comet 67P. (credit:Getty Images)

The comet came closer...(09 of19)

(credit:APN)

(10 of19)

Taken at a distance of around 110km this image was taken in August 2014 and shows on of the clearest images yet of Comet 67P/Churyumov-Gerasimenko.

(11 of19)

The image shows the spectacular region of activity at the 'neck' of 67P/C-G. This is the product of ices sublimating and gases escaping from inside the comet, carrying streams of dust out into space.

Rosetta 'Selfie'(12 of19)

This incredible double exposure image was taken at just 16km. In the foreground you can see one of Rosetta's large 14m solar wings while in the background is the comet itself.

(13 of19)

Rosetta OSIRIS wide-angle camera image of Comet 67P/Churyumov-Gerasimenko shows the extensive activity taking place at the 'neck' of the comet.

It picked its landing site.(14 of19)

This small, unassuming patch of ground is where the ESA hopes to make history by being the first organisation to land on a comet. The photo is a collage of different images taken from around 30km.

And now?(15 of19)

This image provided by the European Space Agency ESA shows an artists impression of the Rosetta orbiter deploying the Philae lander to comet 67P/ChuryumovGerasimenko (credit:AP)

How Will It Land?(16 of19)

To help avoid any unnecessary complications the ESA is taking no chances. Once the thruster pushes Philae onto the comet's surface foot screws will immediately lock the lander down while tiny Harpoons will shoot down, essentially 'anchoring' the tiny lander.

Exploring A Comet(17 of19)

Undated artistic sketch of Philae on the comet. (credit:Getty Images)

And now we wait.(18 of19)

Employees work in the control room of ESA in Darmstadt, Germany. (credit:AP)

(19 of19)

The picture taken with the navigation camera on Rosetta and released by the European Space Agency ESA shows the boulder-strewn neck region of Comet 67P/ChuryumovâGerasimenko, with the smaller lobe on the left and the larger lobe on the right. (credit:ASSOCIATED PRESS)

A statement on the ESA blog said: "The hugely successful Rosetta mission will continue, as the spacecraft tracks comet 67P/C-G on its journey to the Sun. Rosetta is the first spacecraft to rendezvous with and orbit a comet and has already returned incredible scientific data."

Speaking at ESA's mission control centre in Darmstadt, Germany, lander scientist Professor Jean-Pierre Bibring, said:
"We are below a cliff. Don't ask me how many metres, but very close by. Because of that we are in a sort of a shadow permanently, and that is a problem.
"We're almost vertical; one foot probably is in open space and two feet are on the surface."

Pointing to a large image of the comet, Philae lander manager Dr Stephan Ulamec added: "It could be that we are somewhere in the rim of this crater, which could explain this bizarre orientation."

Here are some of the key numbers involved in the project:

Rosetta mission cost: Close to 1.4 billion euros (£1.1 billion), including Philae's cost of 220 million euros (£173 million)

Philae distance from home: 316 million miles

Mission length so far: 10 years

Time taken for news to reach Earth: 28 minutes, 20 seconds

Philae weight: 100 kilograms

Comet 67P weight: 10 billion tonnes

Number of names suggested for landing site: 8,000 (the name chosen was Agilkia)

Length of lander's stay on comet: No one knows yet

Number of countries behind the comet landing: 14

Announcement retweets: 28,000 in first hour

PICS: Space Is Incredible

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Venus(02 of41)

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Saturn's Storm(03 of41)

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Carina Nebula(04 of41)

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Gas Falling Into A Black Hole(05 of41)

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'Black Marble'(06 of41)

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Ring Nebula(07 of41)

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Jupiter and Ganymede(09 of41)

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Crab Nebula(10 of41)

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Lagoon Nebula(11 of41)

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Mercury(12 of41)

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Cat's Eye Nebula(13 of41)

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Spiral Galaxy(14 of41)

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Aurora(15 of41)

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Eta Carinae(16 of41)

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Saturn's Moons(17 of41)

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Saturn's Auroras(18 of41)

Scientists first observed Saturn’s auroras in 1979. Decades later, these shimmering ribbons of light still fascinate. For one thing they’re magnificently tall, rising hundreds of miles above the planet’s poles. And unlike on Earth, where bright displays fizzle after only a few hours, auroras on Saturn can shine for days. Auroras are produced when speeding particles accelerated by the sun’s energy collide with gases in a planet’s atmosphere. The gases fluoresce, emitting flashes of light at different wavelengths. (credit:NASA)

'Star Formation Laboratory'(19 of41)

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Red Dwarf Star(20 of41)

Artist's depiction of the powerful flare that erupted from the red dwarf star EV Lacertae in 2008. (credit:Casey Reed/NASA)

Coronal Mass Ejection(21 of41)

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Centaurus A(22 of41)

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Andromeda Galaxy(23 of41)

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Mickey Mouse On Mercury?(24 of41)

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Aurora From Space(25 of41)

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Daybreak On Mars(26 of41)

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Saturn(27 of41)

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Jupiter(28 of41)

New red spot appears on Jupiter. (credit:M. Wong and I. de Pater (University of California, Berkeley))

Cygnus X(29 of41)

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Spiral Galaxy(30 of41)

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Horsehead Nebula(31 of41)

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Planetary Nebula(32 of41)

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Hubble Images Searchlight Beams from a Preplanetary Nebula(33 of41)

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Dying Star (34 of41)

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Colossal Glow(35 of41)

Saturn’s auroras put on a dazzling display of light. Scientists first observed Saturn’s auroras in 1979. Decades later, these shimmering ribbons of light still fascinate. For one thing they’re magnificently tall, rising hundreds of miles above the planet’s poles. And unlike on Earth where bright displays fizzle after only a few hours, auroras on Saturn can shine for days. Auroras are produced when speeding particles accelerated by the sun’s energy collide with gases in a planet’s atmosphere. The gases fluoresce, emitting flashes of light at different wavelengths. Watch the video (1.usa.gov/IFW5o7) to see an edge-on view of Saturn’s northern and southern lights courtesy of NASA’s Hubble Space Telescope.

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Hubble Sees Stars and a Stripe in Celestial Fireworks(37 of41)

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NASA's Hubble Shows Milky Way is Destined for Head-On Collision(38 of41)

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New Supernova Remnant Light Up(39 of41)

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Aurora Australis from Space(40 of41)

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Daybreak at Gale Crater(41 of41)

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