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    VIRGOCosmos In Brief - Aktualní novinky vesmírného výzkumu v kostce
    VIRGO
    VIRGO --- ---
    Astronomers create most detailed radio image of nearby dwarf galaxy - ANU
    http://www.anu.edu.au/...ll-news/astronomers-create-most-detailed-radio-image-of-nearby-dwarf-galaxy

    Astronomers at ANU have created the most detailed radio image of nearby dwarf galaxy, the Small Magellanic Cloud,
    revealing secrets of how it formed and how it is likely to evolve.

    This image was taken by CSIRO's powerful new radio telescope, the Australian Square Kilometre Array Pathfinder
    (ASKAP), and its innovative radio camera technology, known as phased array feeds.

    VIRGO
    VIRGO --- ---
    ALMA Discovers Infant Stars Surprisingly Near Galaxy’s Supermassive Black Hole - National Radio Astronomy Observatory
    https://public.nrao.edu/news/2017-alma-lmstars/

    Earliest phase of star formation ever observed in highly hostile environment

    At the center of our galaxy, in the immediate vicinity of its supermassive black hole, is a region wracked by powerful tidal forces
    and bathed in intense ultraviolet light and X-ray radiation. These harsh conditions, astronomers surmise, do not favor star formation,
    especially low-mass stars like our sun. Surprisingly, new observations from ALMA suggest otherwise.

    ALMA has revealed the telltale signs of eleven low-mass stars forming perilously close — within three light-years — to the Milky Way’s
    supermassive black hole, known to astronomers as Sagittarius A* (Sgr A*). At this distance, tidal forces driven by the supermassive
    black hole should be energetic enough to rip apart clouds of dust and gas before they can form stars.

    The presence of these newly discovered protostars (the formative stage between a dense cloud of gas and a young, shining star) suggests
    that the conditions necessary to birth low-mass stars may exist even in one of the most turbulent regions of our galaxy and possibly in
    similar locales throughout the universe.

    VIRGO
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    JULIANNE: Klasická nestíhačka. Bude záznam na YT?
    VIRGO
    VIRGO --- ---
    http://www.utu.fi/...Measure-Neutron-Star-Size-Uses-Modelling-Based-on-Thermonuclear-Explosions.aspx

    Neutron stars are made out of cold ultra-dense matter. How this matter behaves is one of the biggest mysteries in modern nuclear physics.
    Researchers developed a new method for measuring the radius of neutron stars which helps them to understand what happens to the matter
    inside the star under extreme pressure.

    [1709.09120] Neutron star mass and radius measurements from atmospheric model fits to X-ray burst cooling tail spectra
    https://arxiv.org/abs/1709.09120
    VIRGO
    VIRGO --- ---
    The Tyranny of Extraterrestrial Messaging - Scientific American Blog Network
    https://blogs.scientificamerican.com/life-unbounded/the-tyranny-of-extraterrestrial-messaging/

    Some of the basic assumptions we make about extraterrestrial communication can be woefully naïve. Consider the situation in its gory detail.
    You decide (perhaps as a species, or perhaps as some resource-rich subset) that you want to ping the cosmos to find out if something else is
    listening, thinking, and as technological as you are. So you fire up your radio transmitter, or your big laser and start shooting off ‘Hello’
    messages.

    If our circumstances represent a useful template it means that the earliest possible response might come within about 8 years (Earth years of
    course). That's assuming that there is a responder in the nearest exoplanetary system, listening and receiving your first message at the right
    time, ready to fire back a response right away, willing to fire back a response, and capable of firing back something recognizable as a response.
    So, you start listening carefully 8 years later. But nothing comes in. So, you keep listening, telling yourself that it may take time for anyone
    to put a response together. And you keep listening.

    Meanwhile, you’ve been busy. In the last 8 years you’ve been pinging the next furthest stellar systems. But for these the roundtrip light travel
    times go up to 10 years, 20 years, 40 years. Within the sphere of space for a 40-year messaging roundtrip are roughly 150 stars.
    VIRGO
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    Shards, Axis Ratios and Interstellar Objects
    https://www.centauri-dreams.org/?p=38854

    With ‘Oumuamua, though, we now have to ask whether the 10 to 1 ratio is actually correct, as Jason Wright noted in a recent post.
    The problem here is that, unlike the situation with Boyajian’s Star, we have a small dataset to work with, and according to Wright
    (Penn State), researchers are getting different aspect ratios, ranging all the way from the aforementioned 10 to 1 down to
    a relatively ordinary 3 to 1.

    If the latter is the case, the interstellar object may look something more like Haumea than the Shard. “I’ll need to see a lot more
    data and hard, critical analysis of the anomalies in ‘Oumuamua before I get interested in the SETI angle at the level I am for Tabby’s
    Star,” adds Wright.
    VIRGO
    VIRGO --- ---
    'Oumuamua: An Interstellar Visitor
    https://www.youtube.com/watch?v=4N3_bxZHDDI
    JULIANNE
    JULIANNE --- ---
    Jen si tu odložím drobnou pozvánku...
    Jak se žije na Marsu – BIO|OKO – nejlepší kino na Praze 7
    http://www.biooko.net/cz/film/9346/Jak-se-zije-na-Marsu/
    BROUKOID
    BROUKOID --- ---
    JAKKILLER: az v periheliu prece :)
    VIRGO
    VIRGO --- ---
    https://www.nasa.gov/feature/goddard/2017/nasa-telescope-studies-quirky-comet-45p

    When comet 45P zipped past Earth early in 2017, researchers observing from NASA’s Infrared Telescope Facility, or IRTF,
    in Hawai’i gave the long-time trekker a thorough astronomical checkup. The results help fill in crucial details about ices
    in Jupiter-family comets and reveal that quirky 45P doesn’t quite match any comet studied so far.

    Like a doctor recording vital signs, the team measured the levels of nine gases released from the icy nucleus into the comet’s
    thin atmosphere, or coma. Several of these gases supply building blocks for amino acids, sugars and other biologically relevant
    molecules. Of particular interest were carbon monoxide and methane, which are so hard to detect in Jupiter-family comets that
    they’ve only been studied a few times before.

    VIRGO
    VIRGO --- ---
    Astronomers Reveal Nearby Stars That Are Among The Oldest In Our Galaxy - News Hub -
    http://news.gsu.edu/2017/11/19/astronomers-reveal-nearby-stars-among-oldest-galaxy/

    Astronomers have discovered some of the oldest stars in our Milky Way galaxy by determining their locations and velocities, according to a study led by scientists at
    Georgia State University. This study focused on old or “senior citizen” stars, also known as cool subdwarfs, that are much older and cooler in temperature than the sun.

    In this study, published in the November 2017 edition of The Astronomical Journal, astronomers conducted a census of our solar neighborhood to identify how many young,
    adult and old stars are present. They targeted stars out to a distance of 200 light years, which is relatively nearby considering the galaxy is more than 100,000 light
    years across. A light year is how far light can travel in one year. This is farther than the traditional horizon for the region of space that is referred to as “the
    solar neighborhood,” which is about 80 light years in radius.
    VIRGO
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    Press Release - Uncovering the Origins of Galaxies' Halos
    https://www.naoj.org/Pressrelease/2017/08/02/index.html

    Using the Subaru Telescope atop Maunakea, researchers have identified 11 dwarf galaxies and two star-containing halos
    in the outer region of a large spiral galaxy 25 million light-years away from Earth. The findings, published in The
    Astrophysical Journal, provide new insight into how these 'tidal stellar streams' form around galaxies.

    Researchers from Tohoku University and colleagues used an ultra-wide field of view camera on the Subaru Telescope to
    develop a better understanding of stellar halos. These ring-shaped collections of stars orbit large galaxies and can
    often originate from smaller dwarf galaxies nearby.

    The team focused their attention on Galaxy NGC 4631, otherwise known as the Whale Galaxy because of its shape. They
    identified 11 dwarf galaxies in its outer region, some of which were already known. Dwarf galaxies are not easily
    detected because of their small sizes, masses and low brightness. The team also found two tidal stellar streams orbiting
    the galaxy: one, called Stream SE, is located in front of it and the other, called Stream NW, is nestled behind it.

    VIRGO
    VIRGO --- ---
    Kepler Planets Tend to Have Siblings of the Same Size
    http://aasnova.org/2017/11/20/kepler-planets-tend-to-have-siblings-of-the-same-size/

    After 8.5 years of observations with the Kepler space observatory, we’ve discovered a large number of close-in, tightly-spaced, multiple-
    planet systems orbiting distant stars. In the process, we’ve learned a lot about the properties about these systems — and discovered some
    unexpected behavior. A new study explores one of the properties that has surprised us: planets of the same size tend to live together.

    VIRGO
    VIRGO --- ---
    VIRGO: HST is looking at the interstellar Asteroid A-2017-U1 with Wide Field Camera 3.

    SpaceTelescopeLive
    http://spacetelescopelive.org/2017-11-21T03:17:00+00:00
    JAKKILLER
    JAKKILLER --- ---
    BROUKOID: uz zpomaluje?
    BROUKOID
    BROUKOID --- ---
    VIRGO: ok... nejdriv sem to nechtel postovat, ale ted uz mi to neda - bud je to hodne sofistikovanej prank, nebo je to fakt uzasna nahoda :)
    VIRGO
    VIRGO --- ---
    VIRGO:

    Animation of `Oumuamua passing through the Solar System (annotated)
    https://www.youtube.com/watch?v=O6PpbO7vIjU
    VIRGO
    VIRGO --- ---
    https://www.nasa.gov/...ard/2017/nasa-s-james-webb-space-telescope-completes-final-cryogenic-testing

    The vault-like, 40-foot diameter, 40-ton door of Chamber A at NASA’s Johnson Space Center in Houston was unsealed on November 18,
    signaling the end of cryogenic testing for NASA’s James Webb Space Telescope.

    “After 15 years of planning, chamber refurbishment, hundreds of hours of risk-reduction testing, the dedication of more than 100
    individuals through more than 90 days of testing, and surviving Hurricane Harvey, the OTIS cryogenic test has been an outstanding
    success,” said Bill Ochs, project manager for the James Webb Space Telescope at NASA’s Goddard Space Flight Center in Greenbelt,
    Maryland. “The completion of the test is one of the most significant steps in the march to launching Webb.”

    These tests included an important alignment check of Webb’s 18 primary mirror segments, to make sure all of the gold-plated,
    hexagonal segments acted like a single, monolithic mirror.

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