Men at work within the Borexino experiment (Photo courtesy Italian National Institute of Nuclear Physics. All rights reserved)

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An article published in the journal “Nature” reports the detection of neutrinos produced by the Sun by the Borexino experiment. The scientists of the Borexino Collaboration at the Gran Sasso National Laboratories of the Italian National Institute of Nuclear Physics that conducted this investigation have thus obtained experimental evidence that the CNO (carbon-nitrogen-oxygen) cycle, which produces those neutrinos, powers the nuclear fusion that occurs in the solar core. This cycle is predominant in stars with a mass greater than the Sun, and this adds importance to the evidence offered to a theory developed more than 80 years ago.

CK Vulpeculae seen with Gemini North (Image International Gemini Observatory/NOIRLab/NSF/AURA. Image processing: Travis Rector (University of Alaska Anchorage), Jen Miller (Gemini Observatory/NSF's NOIRLab), Mahdi Zamani & Davide de Martin)

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An article to be published in the “Astrophysical Journal Letters” reports a research on CK Vulpeculae (CK Vul), what was considered a well documented nova having been described between 1670 and 1672, also for the bipolar nebula that left and was recently studied. A team of astronomers led by Dipankar Banerjee, Tom Geballe, and Nye Evans used the GNIRS spectrograph mounted on the Gemini North telescope to obtain measurements that led to the conclusion that CK Vulpeculae is about 10,000 light-years away from Earth, five times as far as previously estimated, and that the explosion was more powerful than a nova but not at the levels of a supernova.

Chaotic terrain in Mars Pyrrhae Regio seen by Mars Express

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ESA has released new images captured by its Mars Express space probe’s High Resolution Stereo Camera (HRSC) in Pyrrhae Regio, a region close to the Valles Marineris system on planet Mars. This is what is called chaotic terrain of the kind that forms when there’s underground ice that melts causing large amounts of water to be released. Such a process requires a significant amount of heat, which may have been provided by volcanic activity or a meteor impact. The current look is what is left after the water drained away, leaving in particular the geological formations called mesas.

The Sentinel-6A Michael Freilich satellite blasting off atop a Falcon 9 rocket (Image NASA TV)

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A short time ago, the Sentinel-6A Michael Freilich satellite was launched atop a Falcon 9 rocket from the Vandenberg base. After almost exactly an hour, it successfully separated from the rocket’s last stage and set off on its course to reach the polar orbit at 1,336 kilometers altitude where its scientific mission will begin.

This mission is a collaboration between NASA, ESA, EUMETSAT, and NOAA. For this reason, it was named Michael Freilich after the former Director of NASA’s Earth Science Division, who passed away on August 5, 2020, alongside NASA’s Jason satellites and at the same time is part of ESA’s Copernicus program.