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    VIRGOCosmos In Brief - Aktualní novinky vesmírného výzkumu v kostce
    VIRGO
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    Hubble Pushed Beyond Limits to Spot Clumps of New Stars in Distant Galaxy
    https://www.nasa.gov/feature/goddard/2017/hubble-sees-clumps-of-new-stars-in-distant-galaxy

    By applying a new computational analysis to a galaxy magnified by a gravitational lens, astronomers have obtained images 10 times sharper
    than what Hubble could achieve on its own. The results show an edge-on disk galaxy studded with brilliant patches of newly formed stars.



    Hubble’s Hidden Galaxy
    https://www.nasa.gov/image-feature/goddard/2017/hubbles-hidden-galaxy

    IC 342 is a challenging cosmic target. Although it is bright, the galaxy sits near the equator of the Milky Way’s galactic disk,
    where the sky is thick with glowing cosmic gas, bright stars, and dark, obscuring dust. In order for astronomers to see the intricate
    spiral structure of IC 342, they must gaze through a large amount of material contained within our own galaxy — no easy feat! As
    a result IC 342 is relatively difficult to spot and image, giving rise to its intriguing nickname: the “Hidden Galaxy.”

    VIRGO
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    Mercury Planetary Orbiter solar wing deployment
    https://www.youtube.com/watch?v=Aa1JIlzgj5I


    BepiColombo vibration test
    https://www.youtube.com/watch?v=2jh3ViOpKqY
    VIRGO
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    YaleNews | A cosmic barbecue: Researchers spot 60 new ‘hot Jupiter’ candidates
    http://news.yale.edu/2017/07/06/cosmic-barbecue-researchers-spot-60-new-hot-jupiter-candidates

    Yale researchers have identified 60 potential new “hot Jupiters” — highly irradiated worlds that glow like coals on a barbecue grill
    and are found orbiting only 1% of Sun-like stars. Hot Jupiters constitute a class of gas giant planets located so close to their parent
    stars that they take less than a week to complete an orbit.

    Second-year Ph.D. student Sarah Millholland and astronomy professor Greg Laughlin identified the planet candidates via a novel application
    of big data techniques. They used a supervised machine learning algorithm — a sophisticated program that can be trained to recognize patterns
    in data and make predictions — to detect the tiny amplitude variations in observed light that result as an orbiting planet reflects rays of
    light from its host star.

    “Sarah’s work has given us what amounts to a ‘class portrait’ of extrasolar planets at their most alien,” said Laughlin. “It’s amazing how
    the latest techniques in machine learning, compounded with high-performance computing, are allowing us to mine classic data sets for
    extraordinary discoveries.”

    VIRGO
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    First look at gravitational dance that drives stellar formation
    http://www.ras.org.uk/...-press/3013-first-look-at-gravitational-dance-that-drives-stellar-formation

    Swirling motions in clouds of cold, dense gas have given, for the first time, an active insight into how gravity creates the compact cores
    from which stars form in the interstellar medium. The results will be presented today, Thursday 6 July, by Gwen Williams at the National
    Astronomy Meeting at the University of Hull.

    Williams, of Cardiff University, explains: “We’ve known for some time that dusty, filamentary cloud structures are ubiquitous in the Milky
    Way’s interstellar medium. We also know that the densest of these filaments fragment into compact pockets of cold gas that then collapse
    under their own gravity to form individual stars. However, there’s still been a question mark over how, exactly, this happens.”

    SDC13 is a remarkable cloud network of four filaments converging on a central hub, with a total mass of gas equivalent to a thousand of our
    Suns. Observations by Williams and colleagues at Cardiff University and the University of Manchester, using the Jansky Very Large Array (JVLA)
    and the Green Bank Telescope (GBT), have now captured the effects of gravity on ammonia gas moving within the SDC13 system.

    Material is pulled from surrounding filaments and accreted onto cores dotted along the cloud structure, converting gravitational potential energy
    into kinetic energy in the process. Intense surges in the gas motion are observed at two-thirds of the cores that have yet to form stars.

    VIRGO
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    Lucky Break Leads to Controversial Supernova Discovery | Quanta Magazine
    https://www.quantamagazine.org/lucky-break-leads-to-controversial-supernova-discovery-20170705/

    Supernova hunters were able to train their telescopes on a recent eruption just hours after it exploded.
    What they found only adds to the growing list of questions surrounding these cosmic blasts.

    VIRGO
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    A guide to Cassini's remaining orbits | The Planetary Society
    http://www.planetary.org/blogs/emily-lakdawalla/2017/0703-cassini-end-preview-preview.html

    VIRGO
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    Re-Making Planets after Star-Death
    http://www.ras.org.uk/news-and-press/3004-re-making-planets-after-star-death

    Astronomers Dr Jane Greaves, of the University of Cardiff, and Dr Wayne Holland, of the UK Astronomy Technology Centre in Edinburgh,
    may have found an answer to the 25-year-old mystery of how planets form in the aftermath of a supernova explosion. The two researchers
    will present their work on Thursday 6 July at the National Astronomy Meeting at the University of Hull, and in a paper in Monthly
    Notices of the Royal Astronomical Society.

    VIRGO
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    BepiColombo: Joint Mercury mission ready for 'pizza oven' - BBC News
    http://www.bbc.com/news/science-environment-40513818

    The European and Japanese satellites that make up the BepiColombo
    mission to the Planet Mercury are being put on display on Thursday.

    VIRGO
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    http://physicstoday.scitation.org/doi/10.1063/PT.3.3621

    Radio observatories are accumulating data to detect mergers of supermassive black holes.

    Pulsar timing arrays monitor millisecond pulsars in the Milky Way. As a pulsar rotates, it emits radio waves that sweep by Earth with the period of rotation.
    The shorter the period, the more and sharper the incident radio-wave ticks, so the better the clock. A gravitational wave passing between a pulsar clock and
    an observer distorts spacetime and causes the signals to arrive either later or earlier. “That’s the fingerprint,” says EPTA member Alberto Sesana of
    the University of Birmingham.

    The distortions due to gravitational waves are faint; if they arise from galaxy mergers, they occur with periods of decades. Data are collected for each pulsar
    for about a half hour every few weeks. The hundreds of thousands of pulses from a given observation are summed to extract the signal from the noise.

    Extragalactic gravitational waves wash over all the pulsars in the Milky Way. Because the pulsars are independent, and each has its own timing and its own
    interstellar medium, the main giveaway for detecting a gravitational wave is a correlated signal between the pulsars. “Pulsars do their own thing, and it’s hard
    to dig out a tiny signal from a large number of sources of noise,” says Sesana. “The main way to overcome this is by timing an array of pulsars.”

    Each experiment keeps tabs on around 50 pulsars. Often an individual astronomer is responsible for specific clocks. For example, NANOGrav member Maura
    McLaughlin of West Virginia University monitors five. Assessing the data “is not completely deterministic,” she says. “It’s a bit of an art form.”

    VIRGO
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    Calm lakes on Titan could mean smooth landing for future space probes
    https://phys.org/news/2017-07-calm-lakes-titan-smooth-future.html

    The lakes of liquid methane on Saturn's moon, Titan, are perfect for paddling but not for surfing. New research led by The University
    of Texas at Austin has found that most waves on Titan's lakes reach only about 1 centimeter high, a finding that indicates a serene
    environment that could be good news for future probes sent to the surface of that moon.

    VIRGO
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    http://www.ifa.hawaii.edu/info/press-releases/robo_ao2/

    The University of Hawaiʻi's 2.2 meter (88-inch) telescope on Maunakea will soon be producing images nearly as sharp
    as those from the Hubble Space Telescope, thanks to a new instrument using the latest image sharpening technologies.
    Astronomer Christoph Baranec, at the University of Hawaiʻi's Institute for Astronomy (IfA), has been awarded a nearly
    $1 million grant from the National Science Foundation to build an autonomous adaptive optics system called Robo-AO-2
    for the UH telescope.

    VIRGO
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    Astrobiology: Hunting aliens : Nature : Nature Research
    http://www.nature.com/nature/journal/v546/n7660/full/546596a.html

    Ramin Skibba enjoys a profile of the woman heading the search for life off Earth.

    VIRGO
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    Institute for Astronomy celebrates 50 years of discovery : University of Hawaiʻi System News
    http://www.hawaii.edu/news/2017/06/29/institute-for-astronomy-celebrates-50-years/

    Institute for Astronomy celebrates 50 years of discovery
    https://www.youtube.com/watch?v=bGyBofPm84E
    VIRGO
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    https://www.nasa.gov/image-feature/jpl/pia21335/zoom-in-on-epimetheus

    This zoomed-in view of Epimetheus, one of the highest resolution ever taken, shows a surface covered in craters, vivid reminders of the hazards of space.

    Epimetheus (70 miles or 113 kilometers across) is too small for its gravity to hold onto an atmosphere. It is also too small to be geologically active.
    There is therefore no way to erase the scars from meteor impacts, except for the generation of new impact craters on top of old ones. This view looks toward
    anti-Saturn side of Epimetheus. North on Epimetheus is up and rotated 32 degrees to the right. The image was taken with the Cassini spacecraft narrow-angle
    camera on Feb. 21, 2017 using a spectral filter which preferentially admits wavelengths of near-infrared light centered at 939 nanometers. The view was acquired at
    a distance of approximately 15 000 kilometers from Epimetheus and at a Sun-Epimetheus-spacecraft, or phase, angle of 71 degrees. Image scale is 89 meters per pixel.

    VIRGO
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    New Mysteries Surround New Horizons’ Next Flyby Target -

    The data show that MU69 might not be as dark or as large as some expected

    https://www.nasa.gov/feature/new-mysteries-surround-new-horizons-next-flyby-target

    NASA’s New Horizons spacecraft doesn’t zoom past its next science target until New Year’s
    Day 2019, but the Kuiper Belt object, known as 2014 MU69, is already revealing surprises.

    VIRGO
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    All About Exoplanets | DiscoverMagazine.com
    http://discovermagazine.com/rapid/2017/05/all-about-exoplanets

    As research to find life on other planets continues, the best is yet to come. In DM free,
    downloadable PDF, we explore exoplanet discovery, as well as decades of research on mass extinctions.

    VIRGO
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    Woow!!

    Proxima Centauri: What do we know? – by Mikko Tuomi – Red Dots
    https://reddots.space/proxima-centauri-what-do-we-know-by-mikko-tuomi/

    Following the announcement of the discovery of Proxima b, the Red Dots campaign aims at detecting additional
    small planetary sized companions to Proxima Centauri. But we already have hints of variability in the star’s
    radial velocities not explained by the presence of Proxima b alone. There is more to the star than Proxima b.

    VIRGO
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    VIRGO:
    ESOcast 115 Light: Meet one of the most energetic objects in the Universe
    https://www.youtube.com/watch?v=kjbM9FVIXOY
    VIRGO
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    Zářivá spirála s aktivním srdcem | ESO Česko
    http://www.eso.org/public/czechrepublic/news/eso1720/?lang

    Dalekohled ESO/VLT pořídil úchvatný záběr spirální galaxie s příčkou M 77 (Messier 77). Snímek sice zachycuje krásy galaxie
    například v podobě zářících ramen protkaných temnými oblaky prachu, ale není schopen odhalit pravou neklidnou povahu M 77.

    VIRGO
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    It is not clear what might have caused the AMC-9 satellite to become unresponsive.

    A satellite may be falling apart in geostationary orbit [Updated] | Ars Technica
    https://arstechnica.com/.../07/a-large-satellite-appears-to-be-falling-apart-in-geostationary-orbit/

    In the early hours of 1st July, the SES Satellite Control reestablished contact to AMC-9. SES and the satellite
    manufacturer Thales are working around the clock to evaluate the status and define the next steps.

    Tracking information received on 29 June had suggested that at least two separate objects were located in the vicinity
    of AMC-9. Their source has still to be determined. The new piece of information was included by Thales and SES in their
    investigations.

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