Friday, 18 November 2016

Giant 'great valley' found on Mercury

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A newly discovered giant valley on the planet Mercury makes the Grand Canyon look tiny by comparison. The expansive valley holds an important key to the geologic history of the innermost planet in our solar system.
via Science Daily
Zazzle Space Exploration market place

Smallest LHC experiment has cosmic outing

LHCf is the smallest of the six official LHC experiments. Each of the two detectors weighs only 40 kilograms and measures 30 cm long by 60 cm high and 10 cm wide. (Image: Lorenzo Bonechi/ CERN)

Roughly once a year, the smallest Large Hadron Collider (LHC) experiment, LHC-forward (LHCf), is taken out of its dedicated storage on the site near the ATLAS experiment, reinstalled in the LHC tunnel, and put to use investigating high-energy cosmic rays.

Whereas ATLAS and the three other main LHC experiments – CMS, ALICE and LHCb – study all particles produced in collisions no matter in which direction they fly out, LHCf measures the debris thrown in the ‘very forward’ direction.

These forward particles carry a large amount of the collision energy, and barely change their trajectories from the direction of the initial colliding beam.  This makes them ideal for understanding the development of showers of particles produced when high-energy cosmic rays strike the atmosphere.

“The idea behind the LHCf experiment is to help increase our learning about the nature of high-energy cosmic rays, by measuring and interpreting the properties of the secondary particles released when these cosmic rays collide with the Earth’s atmosphere,” explains Lorenzo Bonechi, who leads a team for the LHCf collaboration in Florence, Italy.

The experiment’s two detectors are installed 140 metres either side of the ATLAS collision point. They are not suitable to be used during normal LHC operations, and so have to wait until the machine is running with very few collisions –corresponding to a low luminosity . If the luminosity is too high, the larger number of forward, high-energy particles can heat the detector and cause permanent damage.

LHCf has been reinstalled near the ATLAS detector several times. This year, the experiment only installed one detector, which is taking data during this month’s heavy-ion run, where the LHC is colliding protons with lead ions. The asymmetrical nature of the collisions means one detector would be bombarded with the remnants of the lead nuclei and could be damaged.

The amount of debris which is thrown in the forward direction during collisions in the LHC  and the energy carried by these particles can be compared with the predictions of hadronic interaction models – sophisticated physics models that describe collisions between protons and nuclei and the list of particles produced in these interactions.

“Over previous runs we’ve found significant discrepancies between our data and the most advanced hadronic interaction models, which are used to model how cosmic rays shower down onto the earth when they interact with our atmosphere. LHCf is trying to find evidence that could help prove which of these models provide the most reliable description.  Now, scientists working in this field are making an effort to integrate our results into their models, and we might see a revolution in them in the near future,” says Bonechi.

The run with lead ions and protons began on 10 November 2016 with low intensity and low energy collisions (5.02 TeV) specifically for the ALICE detector to take measurements. But now it has ramped up to colliding the beams at 8.16 TeV, and LHCf has already collected several million particles and will continue its data taking in the coming days.


via CERN: Updates for the general public
http://home.cern/about/updates/2016/11/smallest-lhc-experiment-has-cosmic-outing

Philadelphia Perigee Full Moon

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A supermoon sets over the metropolis of Philadelphia in this twilight snapshot captured on November 14 at 6:21am Eastern Standard Time. Within hours of the Moon's exact full phase, that time does correspond to a lunar perigee or the closest point in the Moon's elliptical orbit around our fair planet. Slightly bigger and brighter at perigee, this Full Moon is still flattened and distorted in appearance by refraction in atmospheric layers along the sight-line near the horizon. Also like more ordinary Full Moons, it shines with the warm color of sunlight. Joined by buildings along the Philadelphia skyline, the perigee full moonlight is reflected in the waters of the mighty Cooper River.
Tomorrow's picture: light-weekend
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ESA’s new Mars orbiter prepares for first science

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The ExoMars orbiter is preparing to make its first scientific observations at Mars during two orbits of the planet starting next week.


via ESA Space Science
http://www.esa.int/Our_Activities/Space_Science/ExoMars/ESA_s_new_Mars_orbiter_prepares_for_first_science