A New Twist in the Dark Matter Tale | NASA
https://www.nasa.gov/mission_pages/chandra/news/a-new-twist-in-the-dark-matter-tale.html

An innovative interpretation of X-ray data from a cluster of galaxies could help scientists fulfill a quest they have been on for decades: determining the nature of dark matter.

The finding involves a new explanation for a set of results made with NASA’s Chandra X-ray Observatory, ESA’s XMM-Newton and Hitomi, a Japanese-led X-ray telescope. If confirmed
with future observations, this may represent a major step forward in understanding the nature of the mysterious, invisible substance that makes up about 85% of matter in the universe.

The story of this work started in 2014 when a team of astronomers led by Esra Bulbul (Harvard-Smithsonian Center for Astrophysics in Cambridge, Mass.) found a spike of intensity
at a very specific energy in Chandra and XMM-Newton observations of the hot gas in the Perseus galaxy cluster.

This spike, or emission line, is at an energy of 3.5 kiloelectron volts (keV). The intensity of the 3.5 keV emission line is very difficult if not impossible to explain in terms
of previously observed or predicted features from astronomical objects, and therefore a dark matter origin was suggested. Bulbul and colleagues also reported the existence of the
3.5 keV line in a study of 73 other galaxy clusters using XMM-Newton.

The plot of this dark matter tale thickened when only a week after Bulbul’s team submitted their paper a different group, led by Alexey Boyarsky of Leiden University in the Netherlands,
reported evidence for an emission line at 3.5 keV in XMM-Newton observations of the galaxy M31 and the outskirts of the Perseus cluster, confirming the Bulbul et al. result.

Life may have originated on Earth 4 billion years ago, study of controversial fossils suggests | Science | AAAS
http://www.sciencemag.org/...iginated-earth-4-billion-years-ago-study-controversial-fossils-suggests

The new work indicates these early microorganisms were surprisingly sophisticated, capable of photosynthesis and of using other chemical processes to get energy,
says Birger Rasmussen, a geobiologist at Curtin University in Perth, Australia, who was not involved with the work. The study “will probably touch off a flurry
of new research into these rocks as other researchers look for data that either support or disprove this new assertion,” adds Alison Olcott Marshall,
a geobiologist at the University of Kansas in Lawrence who was not involved in the effort.




3.5 billion-year-old fossil is oldest ever sign of life identified by scientists | The Independent
http://www.independent.co.uk/...-life-identified-fossil-3-billion-years-old-scientists-a8117011.html

Critics had previously argued microfossils were just unusual shapes in the rock

Santa’s workshop could be on snowy moon
https://warwick.ac.uk/newsandevents/pressreleases/santas_workshop_could/

University of Warwick researchers are exploring whether snowy moons over a billion kilometres away from Earth are potentially habitable.

According to Dr David Brown, and colleagues at Warwick’s Centre for Exoplanets and Habitability, life could be supported on moons of ice
and snow with vast oceans under their frozen surfaces, orbiting Jupiter and Saturn.

'Oumuamua update za poslední 2 dny

Astronomers' recent observations of our first-known interstellar visitor reveal that it is very strange indeed.

Right now ‘Oumuamua (or 1I/2017 U1), as it's now known, is some 350 million km (2.3 astronomical units) from Earth, has dimmed to only 27th magnitude, and is receding
at another 5½ million km (15 Earth-Moon distances) each day. But the flurry of observations made weeks ago, when it was closer and brighter, have fueled a second flurry
of activity — writing scientific papers — to detail what we've learned. Here are three highlights that have come to light since S&T's previous update.

Some of the first observations of 1I/2017 U1 showed that it had a slightly reddish color, not unlike a class of red-tinged bodies (called D types) found in the outer
asteroid belt. Careful spectral measurements made by Alan Fitzsimmons (Queens University Belfast) and others using the 4.2-m William Herschel Telescope and the 8.2-m
Very Large Telescope bear out this initial assessment.

‘Oumuamua Update: Red, Tumbling, and Silent - Sky & Telescope
http://www.skyandtelescope.com/astronomy-news/solar-system/oumuamua-red-tumbling-and-silent/

No sign of alien life 'so far' on the mystery visitor from space, but we're still looking
https://theconversation.com/...so-far-on-the-mystery-visitor-from-space-but-were-still-looking-89223

All news | Alien object ‘Oumuamua was a natural body visiting from another solar system | News | Queen's University Belfast
http://www.qub.ac.uk/...ctOumuamuawasanaturalbodyvisitingfromanothersolarsystemQueensscientists.html

Star mergers: A new test of gravity, dark energy theories | EurekAlert! Science News
https://www.eurekalert.org/pub_releases/2017-12/dbnl-sma121817.php

Observations of neutron star collision challenge some existing theories

https://mcdonaldobservatory.org/news/releases/20171214

https://www.nasa.gov/...eighth-planet-circling-distant-star-discovered-using-artificial-intelligence

The discovery of an eighth planet circling the distant star Kepler-90 by University of Texas at Austin astronomer Andrew Vanderburg
and Google’s Christopher Shallue overturns our solar system’s status as having the highest number of known planets. We're now in a tie.

The newly discovered Kepler-90i — a sizzling hot, rocky planet orbiting its star once every 14.4 days — was found using computers that
“learned” to find planets in data from NASA’s Kepler space telescope. Kepler finds distant planets beyond the solar system, or exoplanets,
by detecting the minuscule change in brightness when a planet transits (crosses in front of) a star.

https://www.youtube.com/watch?v=0uzv-tEa7SI

https://www.nasa.gov/...-release/nasa-hosts-media-teleconference-to-announce-latest-kepler-discovery

No alien 'signals' from cigar-shaped asteroid: researchers
https://phys.org/news/2017-12-alien-cigar-shaped-asteroid.html

No alien signals have been detected from an interstellar, cigar-shaped space rock discovered travelling through our Solar System in October,
researchers listening for evidence of extraterrestrial technology said Thursday.

"No such signals have been detected" by its network of telescopes, the project said Thursday, adding: "the analysis is not yet complete".

Cold Suns, Warm Exoplanets and Methane Blankets
http://www.news.gatech.edu/2017/12/11/cold-suns-warm-exoplanets-and-methane-blankets

NASA astrobiologists from the Georgia Institute of Technology have developed a comprehensive new model that shows how planetary chemistry
could make that happen. The model, published in a new study in the journal Nature Geoscience, was based on a likely scenario on Earth three
billion years ago and was actually built around its possible geological and biological chemistry.

The sun produced a quarter less light and heat then, but Earth remained temperate, and methane may have saved our planet from an eon-long
deep-freeze, scientists hypothesize. Had it not, we and most other complex life probably wouldn’t be here today.

The new model combined multiple microbial metabolic processes with volcanic, oceanic and atmospheric activities, which may make it the most
comprehensive of its kind to date. But while studying Earth’s distant past, the Georgia Tech researchers aimed their model light-years away,
wanting it to someday help interpret conditions on recently discovered exoplanets.

The researchers set the model’s parameters broadly so that they could apply not only to our own planet but potentially also to its siblings
with their varying sizes, geologies, and lifeforms.

https://www.nasa.gov/feature/goddard/2017/spanning-disciplines-in-the-search-for-life-beyond-earth

The search for life beyond Earth is riding a surge of creativity and innovation. Following a gold rush of exoplanet discovery over
the past two decades, it is time to tackle the next step: determining which of the known exoplanets are proper candidates for life.

Scientists from NASA and two universities presented new results dedicated to this task in fields spanning astrophysics, Earth science,
heliophysics and planetary science — demonstrating how a cross-disciplinary approach is essential to finding life on other worlds — at
the fall meeting of the American Geophysical Union on Dec. 13, 2017, in New Orleans, Louisiana.

“The potentially habitable real estate in the universe has greatly expanded,” said Giada Arney, an astrobiologist at NASA’s Goddard Space
Flight Center in Greenbelt, Maryland. “We now know of thousands of exoplanets, but what we know about them is limited because we can’t
yet see them directly.”

Currently, scientists mostly rely on indirect methods to identify and study exoplanets; such methods can tell them whether a planet is
Earth-like or how close it is to its parent star. But this isn’t yet enough to say whether a planet is truly habitable, or suitable for
life — for this, scientists must ultimately be able to observe exoplanets directly.

Direct-imaging instrument and mission designs are underway, but in the meantime, Arney explained, scientists are making progress with tools
already at their disposal. They are building computational models to simulate what habitable planets might look like and how they would
interact with their parent stars. To validate their models, they are looking to planets within our own solar system, as analogs for
the exoplanets we may one day discover. This, of course, includes Earth itself — the planet we know best, and the only one we know
of yet that is habitable.

Zrovna teď...

http://seti.berkeley.edu:8000/oumuamua-observations/

As indicated in our press release, we are excited to be focusing our observational efforts on ‘Oumuamua,
the mysterious interloper recently spotted moving rapidly through the solar system.

Our ‘Oumuamua observation campaign will begin on Wednesday, December 13 at 3:00 pm ET. Using the Robert C. Byrd
Green Bank Telescope, we will observe ‘Oumuamua across four radio bands, from 1 to 12 GHz. Our first phase of
observations will last a total of 10 hours, divided into four “epochs” based on the object’s period of rotation.

News | Bright Areas on Ceres Suggest Geologic Activity
https://www.jpl.nasa.gov/news/news.php?feature=7022

If you could fly aboard NASA's Dawn spacecraft, the surface of dwarf planet Ceres would generally look quite dark, but with notable exceptions.
These exceptions are the hundreds of bright areas that stand out in images Dawn has returned. Now, scientists have a better sense of how these
reflective areas formed and changed over time -- processes indicative of an active, evolving world.

"The mysterious bright spots on Ceres, which have captivated both the Dawn science team and the public, reveal evidence of Ceres' past subsurface ocean,
and indicate that, far from being a dead world, Ceres is surprisingly active. Geological processes created these bright areas and may still be changing
the face of Ceres today," said Carol Raymond, deputy principal investigator of the Dawn mission, based at NASA's Jet Propulsion Laboratory in Pasadena,
California. Raymond and colleagues presented the latest results about the bright areas at the American Geophysical Union meeting in New Orleans on Tue.

The Bright Stuff: New NASA Dawn Findings at Ceres
https://www.youtube.com/watch?v=wL-sfEsYhpw

2017 Nobel Prize Award Ceremony
https://www.youtube.com/watch?v=cNWwGQAKidA