Three consecutive images of comet C/1979 Q1 plunging into the solar atmosphere on August 30, 1979. In these SOLWIND coronagraph images, the Sun is masked behind the solid disk in the center of the image. (Credit: NRL)
via planetary
Before the big explosion: The artist’s impression shows a binary star system where mass is transferred from a companion to a white dwarf. As soon as sufficient matter has collected on the surface of the dwarf star, this can trigger a nuclear explosion which in turn ignites the catastrophic nuclear burning and destroys the white dwarf – a type Ia supernova flares up. (Credit: ESA, Justyn R. Maund)
via newscientist
Director of distilling, Bill Lumsden. Ardbeg Scottish whisky was sent into space three years ago in an experiment looking at the impact of gravity on how it matures. It will return to Earth September 12th. (Credit: Paul Dodds/Ardbeg/PA)
via theguardian
NASA has warned that a new sunspot spewing powerful X-class flares is beginning to rotate to a position directly in line with Earth. (Credit: NASA)
via austriantribune
In the past decade an extraordinary claim has captivated cosmologists: that the expanding universe we see around us is not the only one; that billions of other universes are out there, too. (Credit: Slim Films, Ellis)
via scientificamerican
Neutron-rich magnesium nuclei have a neutron halo that extends beyond the tightly packed core of the nucleus. (Credit: K. Yoneda, RIKEN Nishina Center for Accelerator-Based Science)
via phys.org
On August 30th, 1984, the space shuttle Discovery launched on its first voyage to space. It wasn’t the first, but over the next 27 years it became the undeniable king of NASA’s shuttle program. (Credit: NASA)
via gizmodo
Dark matter and dark energy continue to be cosmological conundrum for physicists worldwide. Nobel prize winner Brian Schmidt offers his perspective in an interview. The image shown here is of the ALMA antennas and the constellations of Carina (The Keel) and Vela (The Sails). The dark, wispy dust clouds of the Milky Way streak from middle top left to middle bottom right. (Credit: ESO, B. Tafreshi)
via sciencenordic
“Our model predicts different fracture patterns on the surface of Charon depending on the thickness of its surface ice, the structure of the moon’s interior and how easily it deforms, and how its orbit evolved,” said Alyssa Rhoden of NASA’s Goddard Space Flight Center. (Credit: NASA)
via dailygalaxy
Open network environments have become essential in the sciences, enabling accelerated discovery and communication of knowledge. Yet, the real revolution began when open community databases allowed researchers to build on existing contributions and compare their results to established knowledge. (Credit: King, Uhlir)
via acm
Indian physicists propose a tabletop experiment that will provide scientists their first opportunity to measure the probability that particles can move through slits in a twisted path, depicted by the purple ray. (Credit: Aninda Sinha and Urbasi Sinha)
via telegraphindia
Physicists in the US have compressed a synthetic diamond to pressures of 50 million Earth atmospheres to recreate conditions in the cores of giant planets. (Credit: National Ignition Facility)
via sciencealert
. A novel class of electronic materials – the so-called transition-metal oxides – hold promise for exciting, new applications. Where layers of this novel class of electronic materials touch, often a unique, and unprecedented phenomenon occurs: for instance, the interface between two insulators can become superconducting, or a strong magnetic order can build up between two non-magnetic layers.
via phys.org
