In August 2024, research was carried out trying to determine that the data obtained from James Webb do not determine galaxies that are so old or so massive.
How did he try to do this? The study tries to use a probabilistic system to try to determine that the infrared bands are not so strong, and that the force of light gets involved in the gravitational lensing of the black hole.
What is the real problem with this method? It is the choice of sample space. When choosing the sample space, that is, in the block of galaxies that is chosen, there are variations in gravitational lensing.
When we look around a black hole, the light is distorted, and this distortion involves greater distortion near the black hole and less distortion far away. So, if I take an area of this location, I am including in that area more variables of the distortion. Using the sampling system of an area of distortion that varies with distance is something that generates probabilistic uncertainties.
In the study they cite "We removed a total of 300 sources from our final high-redshift sample", and further cites "We removed likely AGN contaminants", AGN are sources of light from extremely bright galaxy nuclei. And so, by extracting such values the study does its probabilistic analysis.
A probabilistic analysis has to do with the block that is studied. In relation to distant galaxies, what is seen most are less distant galaxies, since in the telescope the resolutions reduce as the distance increases. Therefore, the study based on groups of galaxies would have this bias.
And even in these cases, the number of galaxies exceeds the predicted number. To achieve this, the study uses the system of almost instantaneous baryon conversion. What this would mean is that baryon conversion is when quarks and gluons combine to form baryons, which will generate protons and neutrons. In the Big Bang theory, something that came from nothing, which generates extreme energy, and instantaneous inflation occurs, and it says that basic particles such as quarks and gluons appear, and these almost instantly form protons and neutrons, which will generate galaxies.
Something so far outside the realm of probability that it really should be considered magic, not science.
To avoid errors in the study, galaxies should not be used as a sample space, because of the error in choosing the objects, which can cause errors in the probability curve. To avoid this error, there would have to be an extremely correct sample space, linked to base values, which are absolutely certain, as a control group. Which is not possible in this study!
What we have are several postulates to define a probabilistic curve and define changes for the observation of galaxies with red shift.
In addition, the study does not address the metallicity of the galaxies in question. The study only tends to say that James Webb's measurements are wrong, by saying that he is seeing more light than he really should have in reality.
