Scanning the Universe for Large-Scale Structures Using Gamma-Ray Bursts

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Abstract

In the past few decades, large universal structures have been found that challenge the homogeneity and isotropy expected in standard cosmological models. The largest of these, identified as the Hercules–Corona Borealis Great Wall, was found in 2014 in the northern galactic hemisphere in the redshift range of (Formula presented.). Subsequent studies used an increasing gamma-ray burst database to show that the cluster was unlikely to have been caused by statistical sampling uncertainties. This study re-examines burst clustering in the northern galactic hemisphere using a recently developed methodology. Evidence is provided that the Hercules–Corona Borealis Great Wall cluster is larger than previously thought, with members potentially spanning the redshift range of (Formula presented.). The extension of this cluster’s size does not appear to have been due to statistical variations or sampling biases.

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Horvath, I., Bagoly, Z., Balazs, L. G., Hakkila, J., Koncz, B., Racz, I. I., … Pinter, S. (2025). Scanning the Universe for Large-Scale Structures Using Gamma-Ray Bursts. Universe, 11(4). https://doi.org/10.3390/universe11040121

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