September 2023

Artist's concept of the TOI-4600 system (Image courtesy Tedi Vick)

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An article published in the “Astrophysical Journal Letters” reports the discovery of two exoplanets orbiting the star TOI-4600 of which the outermost is the one with the longest year discovered so far. A team of researchers used observations conducted with NASA’s TESS space telescope to find traces of these two gas exoplanets. Other ground-based observatories were used to confirm the existence of these two exoplanets and obtain more information about them. TOI-4600 b has a year of nearly 83 Earth days, a bit shorter than Mercury’s, while TOI-4600 c has a year of nearly 483 days, the longest of all known exoplanets. This is a useful discovery to understand what other planetary systems are like because exoplanets close to their stars are much easier to discover while we still know very little about the ones far from their stars.

The Crew Dragon Endeavour spacecraft during its descent (Image NASA TV)

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A few hours ago, SpaceX’s Crew Dragon Endeavour spacecraft concluded its Crew-6, or SpaceX Crew-6, mission for NASA by landing without problems. On board were astronauts Sultan Alneyadi, Woody Hoburg, and Stephen Bowen and cosmonaut Andrey Fedyaev, who had reached the International Space Station on March 3, 2023, and were part of Expedition 68/69. The four of them finished the sixth regular crewed mission of SpaceX in the Atlantic Ocean, off the coast east of Jacksonville, Florida. The Crew Dragon departed the Station about seventeen hours earlier.

The Aditya-L1 space probe at blastoff (Image courtesy ISRO)

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A few hours ago, the Indian space probe Aditya-L1 blasted off from the Satish Dhawan space center atop a PSLV-XL rocket. After about ten minutes, it regularly separated from the rocket’s last stage. In about 109 days, Aditya-L1 will reach the Lagrange point called L1, about 1.5 million kilometers from the Earth, where it will begin its mission of observing the solar atmosphere and various processes taking place on the Sun’s surface. It will join other space probes and solar observatories helping to unlock the last secrets of the Sun.

SN 1987A as seen by the James Webb Space Telescope's NIRCam (Near-Infrared Camera) instrument

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An image of the remnants of supernova 1987A (SN 1987A) captured by the James Webb Space Telescope caught new details and never-before-seen structures such as the central one, which has a shape like a keyhole, and near it crescent-shaped formations. The NIRCam instrument proves again that it can see where other instruments have seen little or nothing in the decades since the supernova was detected. The aim is always to understand what happens in the years following a supernova to what remains of the star that exploded and to the materials ejected into interstellar space.