Early time solution as an alternative to the late time evolving dark energy with DESI DR2 BAO
Abstract
Recently the Dark Energy Spectroscopic Instrument (DESI) provided constraints on the expansion history from their Data Release 2 (DR2). The DESI baryon acoustic oscillation (BAO) measurements are well described by a flat model, but the preferred parameters are in mild (2.3σ) tension with those determined from the cosmic microwave background (CMB). The DESI collaboration has already explored a variety of solutions to this tension relying on variations in the late-time evolution of dark energy. Here we test an alternative -- the introduction of an ``early dark energy'' (EDE) component. We find that EDE models can alleviate the tension, though they lead to differences in other cosmological parameters that have observational implications. Particularly the EDE models that fit the acoustic datasets prefer lower m, higher H0, ns and σ8 in contrast to the late-time solutions. We discuss the current status and near-future prospects for distinguishing amongst these solutions.
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