Louis Marmet has movedJan 16, 2025

#LittleRedDots #EarlyGalaxies
"JWST fully solves the mystery of “Little Red Dots”"

This plainly contradicts ☠️ the article 🔗https://www.astronomy.com/science/little-red-dots-are-still-a-big-mystery/ *Fully solves*? What's going on? 🤔

Perhaps a confirmation bias from "Start With a Bang"? This misleads the readers into thinking that all the problems are solved...

🔗https://bigthink.com/starts-with-a-bang/jwst-solves-mystery-little-red-dots/

The early universe’s ‘Little Red Dots’ are still a big mystery

Found less than a billion years after the Big Bang, these massive objects are upending astronomers’ timeline for how early galaxies formed.

Astronomy Magazine
Louis Marmet has movedJan 14, 2025

#LCDM #GalaxyFormation #EarlyGalaxies #Illustris
"Old galaxies in the early universe"

<<it isn’t a resounding success if we have to scrape the bottom of the simulated barrel after cherry-picking which barrel.>>

#MOND #MassiveGalaxies

🔗https://tritonstation.com/2025/01/14/old-galaxies-in-the-early-universe/

Old galaxies in the early universe

Continuing our discussion of galaxy formation and evolution in the age of JWST, we saw previously that there appears to be a population of galaxies that grew rapidly in the early universe, attainin…

Triton Station
CorradoJan 18, 2024

#Webb data suggest many #earlygalaxies were long and thin, not disk-like or spherical

https://phys.org/news/2024-01-webb-early-galaxies-thin-disk.html?utm_source=nwletter&utm_medium=email&utm_campaign=daily-nwletter

Webb data suggest many early galaxies were long and thin, not disk-like or spherical

Columbia researchers analyzing images from NASA's James Webb Space Telescope have found that galaxies in the early universe are often flat and elongated, like breadsticks—and are rarely round, like balls of pizza dough.

Phys.org
CorradoJan 10, 2024

#Astronomers have discovered that the supermassive #blackholes in the centers of #earlygalaxies are much more massive than expected.

https://phys.org/news/2024-01-unexpectedly-massive-black-holes-dominate.html?utm_source=nwletter&utm_medium=email&utm_campaign=daily-nwletter

Unexpectedly massive black holes dominate small galaxies in the distant universe

Astronomers have discovered that the supermassive black holes in the centers of early galaxies are much more massive than expected. These surprisingly hefty black holes offer new insights into the origins of all supermassive black holes, as well as the earliest stages of their host galaxy's lives.

Phys.org
News Peak PressOct 1, 2023

#nppscience

"New findings from the James Webb Space Telescope challenge our understanding of the early universe and the formation of spiral galaxies like our own Milky Way. This remarkable telescope is revolutionizing our comprehension of the cosmos. #SpaceExploration"

https://t.co/VSYqBIH1yR

#JamesWebbTelescope
#EarlyGalaxies
#CosmicEvolution

News Peak Press on X

#nppscience Scientists baffled by NASA's latest findings from the James Webb Space Telescope 🌌🔭 Early universe challenges theories on galaxy formation! #SpaceDiscovery https://t.co/OhRICfWPFO #JamesWebbTelescope #EarlyGalaxies #CosmicEvolution

X (formerly Twitter)
ᴄᴏʀʀᴀᴅᴏMay 31, 2023

In this #study, Professor #Dekel and his team propose a process termed "#feedbackfreestarburst" (FFB), which naturally explains the mystery. Under the unique conditions prevalent in #earlygalaxies, #gas efficiently turns into #stars without being disrupted by feedback processes. This idea is based on a time delay of more than one million years between the formation of #massivestars and their subsequent explosions as #supernovae.

https://phys.org/news/2023-05-theoretical-mystery-early-massive-galaxies.html

New theoretical model claims to solve mystery of early massive galaxies

Astrophysicists from the Hebrew University of Jerusalem published a new theoretical model that solves the mystery of the formation of early massive galaxies in the universe, in Monthly Notices of the Royal Astronomical Society. The findings naturally explain recent observations conducted using the James Webb Space Telescope (JWST), which revealed a surprising excess of massive galaxies in the universe—already in the first half billion years after the Big Bang—contrary to the commonly accepted theory.

Phys.org
Ansgar Schmidt Apr 8, 2023
This JWST Image Shows Gravitational Lensing at its Finest https://www.universetoday.com/160788/this-jwst-image-shows-gravitational-lensing-at-its-finest/ #jameswebbspacetelescope #gravitationallensing #gravitationallens #earlygalaxies #starformation #astronomy #featured #galaxies #redshift #jwst #nasa
This JWST Image Shows Gravitational Lensing at its Finest

The latest image release from the James Webb Space Telescope shows another beautiful field filled with galaxies and gravitational lenses

Universe Today
Ansgar Schmidt Feb 1, 2023
Astronomers Pin Down the Age of the Most Distant Galaxy: Seen 367 Million Years After the Big Bang https://www.universetoday.com/159772/astronomers-pin-down-the-age-of-the-most-distant-galaxy-seen-367-million-years-after-the-big-bang/ #gravitationallensing #oxygenemission #earlygalaxies #spectroscopy #glasssurvey #astronomy #galaxies #jwst
Astronomers Pin Down the Age of the Most Distant Galaxy: Seen 367 Million Years After the Big Bang

As promised, the James Webb Space Telescope is finding the Universe's earliest galaxies, forging a link between them and modern galaxies.

Universe Today