Člověk má od dubna rozepsaný draft článku k teoretickým možnostem charakterizace pulsarových planet, říká si, že otázku obyvatelnosti nezmíní, aby už tak poněkud futuristické téma nepůsobilo moc šíleně, a on k tomu mezitím vznikne článek :):
[1705.07688] Neutron Star Planets: Atmospheric processes and habitability
https://arxiv.org/abs/1705.07688

Detecting Exoplanet Life in Our Proximity | astrobites
https://astrobites.org/2017/08/01/detecting-exoplanet-life-in-our-proximity/

Detecting Proxima b’s Atmosphere with JWST Targeting CO2 at 15 Micron Using a High-Pass Spectral Filtering Technique.

Since the discovery of this close planet, researchers have been studying methods that might detect the presence of life on Proxima Centauri b.
Today’s paper by devising a method to detect CO2 in the planet’s atmosphere. They focus on this particular molecule because it is one of the
four main biomarkers used in evaluating habitability of exoplanets; water, methane, carbon dioxide, and oxygen are primarily produced during
biological processes, so their presence in the atmosphere implies life. In addition to being a biomarker molecule, carbon dioxide (CO2) has
many distinguishable features that are visible on the 15 micron band, which JWST is equipped to look at.

These researchers present a technique that can be performed with the soon-to-be-launched James Webb Space Telescope (JWST) which will reveal
the presence of CO2 in the atmosphere of this nearby exoplanet. The emission in the 15 micron band will be ideal for detecting CO2, since
this molecule has over 100 features within this band.

Pořád probíhá vyhodnocování výsledků posledního pozorování zákrytu. Podle posledních výsledků je 2014 MU69 výrazně nesferický,
možná dokonce kontaktní binární objekt, v extrémním případě může jít dokonce o dvojici objektů. Odhadovaná podélná velikost v případě
jednoho asymetrického tělesa je zhruba 30 km, v případě dvojice (ať už kontaktní či těsně obíhající) 15 - 20 km pro každý objekt.

https://www.nasa.gov/feature/new-horizons-next-target-just-got-a-lot-more-interesting

James Webb Space Telescope
https://www.youtube.com/watch?v=Ggw0FHUlUnA

No a report měsíce - tým DES (Dark Energy Survey) dnes oficiálně publikoval výsledky ročního výzkumu vesmíru na velkých škálách
(i když tento program probíhá už 4 roky), pomocí 4m teleskopu observatoře Cerro Tololo na speciálně vytvořené 570 Mpx kameře DECam,
vyvinuté ve Fermilabu. Její citlivost umožňuje zachytit světlo galaxií vzdálených 8 mld svět. let od nás (což odpovídá zhruba 1/3
staří současného vesmíru).

Snímkováno a zaneseno do mapy bylo na 26 000 000 galaxií, jedním z hlavních cílů programu bylo podrobné pozorování temné hmoty a energie,
které tvoří 96 % obsahu pozorovaného vesmíru. Studie potvrdila sočasný konsenzus rozložení: viditelná 4%, TH 26%, TE 70% (zaokrouhleno).

Výsledkem je dosud nejpodrobnější mapa navelkých škálách, co víc výsledky jsou v dobré shodě s měřením detektorem PLANCK.

http://news.fnal.gov/...k-energy-survey-reveals-accurate-measurement-dark-matter-structure-universe/



Hlavní rozcestník/seznam článků, které budou cca do týdne publikovány na arXivu:
https://www.darkenergysurvey.org/des-year-1-cosmology-results-papers/

Živé záznamy: http://vms.fnal.gov/asset/livevideo

SLAC and Stanford astrophysicists made crucial contributions to the galaxy survey,
showing that the universe clumps and expands as predicted by our best cosmological models.

https://www6.slac.stanford.edu/...odel-universe-withstands-most-precise-test-dark-energy-survey.aspx

https://www.youtube.com/watch?v=kts4PxFwUSo

Dark Energy Survey Year 1 Results: Galaxy-Galaxy Lensing
http://www.darkenergysurvey.org/wp-content/uploads/2017/08/y1ggl.pdf



The paper describing the redshift distributions for the 26 million weak lensing source galaxies.
http://www.darkenergysurvey.org/wp-content/uploads/2017/08/y1kpdndz.pdf



Dark energy is so weak you'd need a cube of it 160km across to boil a kettle - @joezuntz

VIRGO jede od 1/8 v plném synchronu s LIGO!

http://www.virgo-gw.eu/docs/AdV_joins_O2_en.pdf

LSC News
http://ligo.org/news/index.php#LVjointO2

:: OSEL.CZ :: - Způsobují rádiové záblesky hvězdy z temné hmoty padající do černých děr?
http://www.osel.cz/...9-zpusobuji-radiove-zablesky-hvezdy-z-temne-hmoty-padajici-do-cernych-der.html
Fast radio bursts may be dark matter ‘stars’ hitting black holes | New Scientist
https://www.newscientist.com/...2527-fast-radio-bursts-may-be-dark-matter-stars-hitting-black-holes/

What Would It Take To Completely Sterilize the Earth? - The Atlantic
https://www.theatlantic.com/.../2017/07/what-would-it-take-to-completely-sterilize-the-earth/533613/

Three astrophysicists calculate that even huge asteroids and exploding stars probably wouldn’t wipe out all life.

The odds of finding life on another planet hinge on the answers to two big questions. First, how often does life arise? Second, once it does arise,
how likely is it to persist without being completely wiped out? The first question is extremely difficult, especially since we have exactly one example
of a life-spawning planet. But the second question is easier to answer—at least for Earth—and a trio of astrophysicists have given it a shot.

In a paper delightfully titled “The Resilience of Life to Astrophysical Events,” David Sloan and Rafael Alves Batista, both from the University of Oxford,
and Avi Loeb, from Harvard University, estimated the odds that a space-borne catastrophe like an incoming asteroid would completely sterilize the Earth.
Reassuringly, they think those odds are astronomically low—about one in 10 million for every billion years. “The conclusion we come to is that life, once it
starts anywhere, is hard to eradicate,” Sloan says. In other words: Life finds a way (even if you bludgeon it with a giant space rock or an exploding star).

To be clear, the three researchers aren’t concerned with the fate of humans—a fragile, fleshy species that, in Loeb’s words, can be “killed by climate change
or affected by bad politics.” Instead, the trio wanted to know what it would take to wipe out all life on the planet. And to do that, they focused on the world’s
hardiest animals—the tardigrades.

'Weird! Signal' Mystery Solved!
https://www.youtube.com/watch?v=OIQNSEADNlA

http://www.nature.com/news/clues-emerge-in-mystery-of-flickering-quasars-1.22376

Some of the Universe's most luminous objects have disappeared much faster than expected

Some of the brightest objects in the Universe — quasars — are vanishing rapidly. Astronomers now think that they understand
this mysterious behaviour, and the answer could help them to explain how galaxies such as the Milky Way evolve.

Quasars are supermassive black holes at the centres of galaxies fed by huge quantities of gas that shine across the visible Universe.
Astronomers have long thought that quasars persist for millions of years before dimming slowly over tens of thousands of years. But
in 2014, Stephanie LaMassa, an astronomer now at the Space Telescope Science Institute in Baltimore, Maryland, discovered a quasar
that seemed to disappear in less than ten years. That’s a blink of an eye, astronomically speaking.

Researchers struggled to explain the oddity. Perhaps a massive dust cloud passed in front of the quasar’s bright beacon and momentarily
blocked its light. Or maybe a star passed too close to the black hole and was rapidly torn apart, causing a bright flare that scientists
mistook for a quasar. It seemed physically impossible that such a bright object could fade in such a short time.

The discovery set in motion the hunt for more of these ‘changing-look’ quasars. The search has identified dozens of these mysterious
beasts, some of which have dimmed more dramatically than the first. The two studies published this month on the preprint server arXiv
suggest that these quasars blaze out of existence because the amount of gas and dust flowing through their accretion disks - the swirl
of hot matter that encircles a black hole - drops dramatically. In effect, the black hole starves.

First Support for a Physics Theory of Life | Quanta Magazine
https://www.quantamagazine.org/first-support-for-a-physics-theory-of-life-20170726/

Take chemistry, add energy, get life. The first tests of Jeremy England’s provocative
origin-of-life hypothesis are in, and they appear to show how order can arise from nothing.

The Soyuz MS-05 rocket is launched with Expedition 52 flight engineer Sergei Ryazanskiy of Roscosmos, flight engineer Randy Bresnik of NASA,
and flight engineer Paolo Nespoli of ESA (European Space Agency), Friday, July 28, 2017 at the Baikonur Cosmodrome in Kazakhstan. Ryazanskiy,
Bresnik, and Nespoli will spend the next four and a half months living and working aboard the International Space Station.

https://www.nasa.gov/...oddard/2017/nasa-finds-moon-of-saturn-has-chemical-that-could-form-membranes

NASA scientists have definitively detected the chemical acrylonitrile in the atmosphere of Saturn’s moon Titan,
a place that has long intrigued scientists investigating the chemical precursors of life.

On Earth, acrylonitrile, also known as vinyl cyanide, is useful in the manufacture of plastics. Under the harsh conditions of
Saturn’s largest moon, this chemical is thought to be capable of forming stable, flexible structures similar to cell membranes.
Other researchers have previously suggested that acrylonitrile is an ingredient of Titan’s atmosphere, but they did not report
an unambiguous detection of the chemical in the smorgasbord of organic, or carbon-rich, molecules found there.

A Titan Discovery
https://www.youtube.com/watch?v=GiYIRzeL5z0