. In particular, we expect JWST to shed some light on what happened shortly after the end of followed by the “cosmic rebirth”, also called cosmic, which is the epoch of re-ionization (EoR), when powerful light sources – whose origin is not yet known with certainty – began to re-ionize neutrals that had formed in a few thousand years, about 380,000 years after .
Astronomer Michelle Thaller explains to us in this video what Cosmic Dawn is, a period of re-ionization that will make it possible to study James-Webb and not just him. For a fairly accurate French translation, click on the white rectangle at the bottom right. The English subtitles should then appear. Then click on the nut to the right of the rectangle, then on “Subtitles” and finally on “Translate automatically”. Select “French”. © NASA Goddard Space Flight Center
The exact date of the beginning of re-ionization is a matter of debate, and all that can be said is that it occurred between 100 and 400 million years after. Before, at the very beginning, no existed yet, but during the EoR there is reason to believe that those that formed and shone were very massive, at least 50 to 100 million years old. solar power. We are talking about these with respect to stars of just as a 3 month old baby is older than a 1 month old baby.
A near population III star?
Thatstar tells us that these stars lived at most a million years and produced by stellar nucleosynthesis for the first time in observable nuclei heavier than which they will then spread to the children by exploding as a supernova. Thereby they will change the composition of where new stars can be born from gravity, which subsequently favors the appearance of less massive stars, so that more than a billion years after the Big Bang, it has become impossible to observe stars with all the characteristics of those in population III.
Astronomer Michelle Thaller’s explanations of population III stars and Earendel. © Space.com
However, it is possible that the star at the record distance discovered recently withand as Futura had discussed in some detail in the previous article below, Earendel, either one of the last population III stars born less than a billion years after the Big Bang (or at least very similar to them), or much more likely , as explained by Michelle Thaller, unfortunately in English in the video above, an example of stars with very little difference in composition and properties, born right after them.
Remember she was only flushed out using onei.e. the magnification effect (in this case by a factor of at least 1,000) caused by the field of one intervening between Earendel and Hubble, deflecting light rays like a magnifying glass.
Calculations then showed that Earendel must contain at least 50 solar masses, and that it was observed when the universe was only about 900 million years old.
Recently, the first image showing Earendel was uploaded.
Hubble breaks all records for the most distant star ever observed
Article bypublished on 03/04/2022
thathas just shown that we could always count on him setting a distance record for stars in the distant universe before the commissioning of the James-Webb telescope. NASA just announced that it had imaged the most distant star yet known as it was 12.9 billion years ago.
Her name is Ear part and one would think that it is a variation of the name ofEarendilone of the Elvish characters created by the British author JRR Tolkien and mentioned in Lord of the Rings. However, NASA explains that it is an old English term meaning ”“. But for us, above all, it is a star that was observed when the universe was only 7% of its age, which means that the photons collected by the Hubble telescope took 12.9 billion years to end say to him.
The most distant star known to date
It is actually the most distant star ever discovered to date, and like some of the distant galaxies that in its day broke distance records thanks to the Hubble telescope,made use of of a significant mass distribution to create an additional zoom that this alone could not on of the noosphere. In this case, it was the WHL0137-08 cluster of galaxies that broke the previous record for a solitary star. In fact, Hubble had then managed to see into a time when the observable cosmos was only 4 billion years old.
Video taken from the documentary The Odyssey of Light “. In a vacuum, light normally travels in a straight line. But in a space deformed by a massive celestial body, like a galaxy, this path deviates! Thus, a light source located behind a galaxy has an apparent position that is different from its real position: this is the phenomenon of gravitational mirage © CEA, Animea
The discovery was published today via an article in the newspaper, , making it one of the most massive known. However, the theory of stellar structure and evolution also tells us that this kind of star can only live for a few million years at most. She definitely exploded in SN II a very long time ago, leaving behind a compact star which must be one or one .
For us it is still present and will certainly be studied in more detail in the near future with the telescope..
Hubble broke a new record, as this video explains. For a fairly accurate French translation, click on the white rectangle at the bottom right. The English subtitles should then be displayed. Then click on the nut to the right of the rectangle, then on “Subtitles” and finally on “Translate automatically”. Select “French”. © NASA’s Goddard Space Flight Center
Earendel, a type III population star?
The data that James-Webb will collect will already be used to clarify the nature and properties of Earendel, because even if the gravitational lensing produced by the galaxy cluster has already allowed us to estimate some of them, such as its temperature, mass and its radius, there is still uncertainty on this subject. In fact, Earendel, for example, could be a double star.
The most interesting perspective would be that we are standing in front of a star formed fromalmost the pure Big Bang, that is, a mixture of and D’ which would hardly have been changed by the production of heavier nuclei, especially carbon and oxygen, in the very first stars. It is believed that these must have been different and notably more massive than the stars that formed in the galaxies billions of years later. Earendel could thus be similar to these primitive stars, which are said to belong to a type III population because they are very old.
thatare part of the stars of the type I population and the stars older than 10 billion years, not very massive and therefore long-lived, found in or the star halos of galaxies are part of type II populations.
Astrophysicist Rogier Windhorst tells us about his discovery of Earendel and stellar populations. For a fairly accurate French translation, click on the white rectangle at the bottom right. The English subtitles should then be displayed. Then click on the nut to the right of the rectangle, then on “Subtitles” and finally on “Translate automatically”. Select “French”. © ASU School of Earth and Space Exploration