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In this analysis we apply a model-independent framework to test the flat CDM cosmology using simulated SNIa data from the upcoming Large Synoptic Survey Telescope (LSST) and combined with simulated Dark Energy Spectroscopic Instrument (DESI) five-years Baryon Acoustic Oscillations (BAO) data. We adopt an iterative smoothing technique to reconstruct the expansion history from SNIa data, which, when combined with BAO measurements, facilitates a comprehensive test of the Universe's curvature and the nature of dark energy. The analysis is conducted under three different mock true cosmologies: a flat CDM universe, a universe with a notable curvature (₊, ₀ = 0. 1), and one with dynamically evolving dark energy. Each cosmology demonstrates different kinds and varying degrees of deviation from the standard model predictions. We forecast that our reconstruction technique can constrain cosmological parameters, such as the curvature (₊₀) and H₀ rd, with a precision of approximately 0. 52\% for H₀ rd and between 0. 032 to 0. 037 for ₊₀, competitive with current cosmic microwave background constraints, without assuming any form of dark energy.
L’Huillier et al. (Wed,) studied this question.
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