Deep Learning Based Recalibration of SDSS and DESI BAO Alleviates Hubble and Clustering Tensions
classification
🌌 astro-ph.CO
astro-ph.IMcs.LG
keywords
clusteringcosmologicaldatasetsdeepdesiestimationhubblelearning
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Conventional calibration of Baryon Acoustic Oscillations (BAO) data relies on estimation of the sound horizon at drag epoch $r_d$ from early universe observations by assuming a cosmological model. We present a recalibration of two independent BAO datasets, SDSS and DESI, by employing deep learning techniques for model-independent estimation of $r_d$, and explore the impacts on $\Lambda$CDM cosmological parameters. Significant reductions in both Hubble ($H_0$) and clustering ($S_8$) tensions are observed for both the recalibrated datasets. Moderate shifts in some other parameters hint towards further exploration of such data-driven approaches.
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