An illustration of the nonreciprocity of the dynamics of light propagating in the forward (a) and the backward (b) direction. (Credit: Nature Photonics)
via phys.org
New observations of the star cluster Messier 54, shown above, reveal that it is just as strangely deficient in lithium as our own galaxy, deepening a mystery about the element’s big bang origins. (Credit: ESO)
via nationalgeographic
This graph shows the distribution of about 20,000 luminous Sloan Digital Sky Survey quasars in the two-dimensional space of broad line width versus FeII strength, color-coded by the strength of the narrow [OIII] line emission. The strong horizontal trend is the main sequence of quasars driven by the efficiency of the black hole accretion, while the vertical spread of broad line width is largely due to our viewing angle to the inner region of the quasar. (Credit: Y. Shen, L. Ho, KIAA)
via skyandtelescope
To see something new, inventor, Raffi Budakian, had to get small — really small. The instrument he uses is as long as a human hair is wide and has the circumference of a virus.(Credit: The Budakian Group)
via perimeterinstitute
“Using a new operating principle called the “hot-electron photothermoelectric effect,” the research team created a device that is “as sensitive as any existing room temperature detector in the terahertz range and more than a million times faster,” says Michael Fuhrer, professor of physics at UMD and Monash University. The above image is a Graphene photothermoelectric detector device fabrication and principle of operation.” (Credit: Nature.com)
via spacedaily
The above sequence depicts a rare supernova explosion. Hubble images (bottom panel) correspond to an artist’s conception (top panel). (Credit: Kavli IPMU / NASA / Gastón Folatelli)
via universetoday
This is a one centimeter by one centimeter graphene film transfer to a silicon wafer with a silicon dioxide top layer. (Credit: Xuesong Li and Weiwei Cai)
via esciencenews
Novae typically originate in binary systems containing Sun-like stars, as shown in this artist’s rendering. NASA’s Fermi Space Telescope discovered that a nova in a system like this likely produces gamma rays (magenta) through collisions among multiple shock waves in the rapidly expanding shell of debris. (Credit: NASA’s Goddard Space Flight Center/S. Wiessinger)
via americaspace
Beam out: elongated “Landau” states – Instead of rotating uniformly at a particular frequency, an international team of researchers has found that electrons in a magnetic field are capable of rotating at three different frequencies, depending on their quantum properties.
via physicsworld
Asteroid 1950 DA. “Following the February 2013 asteroid impact in Chelyabinsk, Russia, there is renewed interest in figuring out how to deal with the potential hazard of an asteroid impact,” said Rozitis. “Understanding what holds these asteroids together can inform strategies to guard against future impacts.” (Credit: NASA)
via tntoday
“The puzzle has been how these ‘seed’ black holes grew into the monsters that we now see within the time available, a few billion years at best,” says Priyamvada Natarajan, who proposes that early quasars took in a “super boost,” feasting from large reservoirs of gas that were part of early star clusters. (Credit: Lollito Larkham/Flickr)
via futurity
Lighting Science created special lightbulbs for the ISS. There are daylight bulbs with bluer light to encourage energy and activity during what would be daytime hours, and then there are lightbulbs that dial back on the blue to boost astronauts’ production of melatonin for a good night’s sleep. (Credit: Lightning Science)
via cnet
High temperatures expanding the seal material could have either impeded the flow, or have precluded the latch valve from opening even with the microswitch indicated to telemetry that the valve was open. (Credit: Farquhar, R, Muhonen, D, Church, L, Curtis, M.S)
via wattsupwiththat
This photo by NASA’s Curiosity Mars rover shows the huge iron meteorite “Lebanon” (7 feet wide) and its smaller companion “Lebanon B.” The two meteorites were found by Curiosity on May 25, 2014. The circular insets are more detailed views by Curiosity’s Chem-Cam instrument overlaid on an image by the rover’s Remote Micro-Imager. (Credit: NASA/JPL-Caltech/LANL/CNES/IRAP/LPGNantes/CNRS/IAS/MSSS)
via space.com
The clear central eye of the storm is about 2000 km across – ten times the typical size on Earth – and clouds at the outer edge of the hurricane on Saturn are moving at more than 500 kph – rather faster than on Earth. (Credit: NASA/JPL-Caltech/SSI)
via dailygalaxy
This map shows the distribution of dark matter (black) in the Universe, overlapping with optical measured clusters of galaxies (red circles). The mass peaks in the map contain significant cosmological information, will provide us with an improved understanding about the dark side of the Universe. The size of this map is about 4 square degrees corresponding to only 2.5% of the full CS82 survey footprint shown in the next figure. (Credit: CS82, SDSS)
via phys.org
British scientists have created a material which absorbs all but 0.035 per cent of light, a new world record, and is so dark the human eye struggles to discern what it is that it is seeing, giving the appearance of a black hole. (Credit: Surrey Nano Systems)
via independent
Researchers have shown that clusters of 40 boron atoms form a molecular cage similar to the carbon buckyball. This is the first experimental evidence that such a boron cage structure exists. (Credit: Wang lab / Brown University)
via .phys.org
Artist’s conception of a hypothetical exoplanet orbiting a yellow, Sun-like star. Astronomers have measured the ages of 22 Sun-like stars using their spins, in a method called gyrochronology. Before now, only two Sun-like stars had measured spins and ages. (Credit: David A. Aguilar (CfA))
via redorbit
Bathurst Observatory Research Facility manager Ray Pickard said work will begin on the Bathurst Asteroid Research Telescope next week. (Credit: ZENIO LAPKA)
via westernadvocate
On Board the International Space Station, ESA astronaut Andre Kuipers blows an air bubble into a water droplet to create this effect. (Credit: ESA/NASA)
via discover
Herschel image of the Helix Nebula using the SPIRE instrument at wavelengths around 250 micrometres, superimposed on Hubble image of the nebula. The spectrum corresponds to the outer region of the Helix Nebula outlined on the SPIRE image. It identifies the OH+ molecular ion, which is needed for the formation of water. ESA’s Herschel space observatory is the first to detect this molecule in planetary nebulas – the product of dying Sun-like stars. Credit: Hubble image: NASA/ESA/C.R. O’Dell (Vanderbilt University), M. Meixner & P. McCullough (STScI); Herschel image: ESA/Herschel/SPIRE/MESS Consortium/M. Etxaluze et al.
2-D-EV spectral data tells researchers how photoexcitation of a molecular system affects the coupling of electronic and vibrational degrees of freedom that is essential to understanding how all molecules, molecular systems and nanomaterials function. Credit: Fleming group
Manipulating minute areas of gain and loss within individual lasers (shown as peaks and valleys in the image), researchers were able to create paradoxical interactions between two nearby lasers. Credit: Vienna University of Technology
This is an artist’s concept of the metric expansion of space, where space (including hypothetical non-observable portions of the universe) is represented at each time by the circular sections. Note on the left the dramatic expansion (not to scale) occurring in the inflationary epoch, and at the center the expansion acceleration
This is a computer simulation of gas (in yellow) falling into a black hole (too small to be seen). Twin jets are also shown with magnetic field lines. Credit: Alexander Tchekhovskoy, Berkeley Lab
![This graph shows the distribution of about 20,000 luminous Sloan Digital Sky Survey quasars in the two-dimensional space of broad line width versus FeII strength, color-coded by the strength of the narrow [OIII] line emission. The strong horizontal trend is the main sequence of quasars driven by the efficiency of the black hole accretion, while the vertical spread of broad line width is largely due to our viewing angle to the inner region of the quasar. (Credit: Y. Shen, L. Ho, KIAA)](https://cosmologyandtime.files.wordpress.com/2014/09/prshenquasargraphicforweb-preview.jpg)
