July 2023

A partial section of the Sun photographed by the Solar Orbiter space probe's EUV instrument with gas at a temperature of around one million degrees Celsius

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An article being published in the journal “Astronomy & Astrophysics” reports a study of what were compared to shooting stars, observed in details never obtained before together with the solar corona. A team of researchers coordinated by Northumbria University in Newcastle used observations conducted by ESA’s Solar Orbiter space probe to study what are actually clumps of plasma that can be up to 250 kilometers wide, a coronal rain that falls on the surface of the Sun. That plasma heats up to a few million degrees, a state that lasts a few minutes during the fall until it condenses following its quick drop in temperature.

The so-called ultradeep field used in the MIDIS survey and on the right, some of the primordial galaxies at the center of this study are highlighted in the circle

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An article published in “The Astrophysical Journal Letters” reports a study indicating that the early universe was much brighter than predicted by simulations based on current cosmological models. A team of researchers coordinated by the Center for Astrobiology (CAB) in Madrid, Spain, used observations conducted with the James Webb Space Telescope to examine galaxies that formed between 200 and 500 million years after the Big Bang. The combination of observations conducted with the NIRCam instrument and the MIRI Deep Imaging Survey (MIDIS) of the Hubble Ultra Deep Field (HUDF) on a sample of 44 primordial galaxies shows their surprising brightness and compactness.

The Euclid Space Telescope blasting off atop a Falcon 9 rocket (Image courtesy SpaceX)

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A little while ago, ESA’s Euclid Space Telescope was launched atop a SpaceX Falcon 9 rocket from Cape Canaveral. After just over 40 minutes, it successfully separated from the rocket’s last stage and entered its course that will take it towards the so-called L2 point, about 1.5 million kilometers from Earth, where its scientific mission will begin with an investigation of the dark universe.

The Euclid Space Telescope mission is focused on the cosmological mysteries connected to dark matter and dark energy. Cosmological research in recent decades indicates that the universe we see with the ordinary matter that forms galaxies constitutes only a small part of the cosmos. Astronomers and physicists are having difficulty investigating parts of the cosmos that we can neither see nor directly detect. It’s a problem that makes it difficult to test models that try to explain the effects that led to hypothesize the existence of dark matter and dark energy. For this reason, ESA developed a scientific mission focused on these cosmological problems.