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w0waCDM, evolving dark energy vs Plain ΛCDM
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w0waCDM, evolving dark energy Consensus | Plain ΛCDM Consensus | |
|---|---|---|
| Proposed | 2001 / 2003 | 1998 / 2020 |
| Key figures | Michel Chevallier, David Polarski, Eric Linder, DESI Collaboration | Planck Collaboration, Adam Riess, Saul Perlmutter, David Spergel |
| In one sentence | Lets dark energy evolve in time instead of being a fixed constant. 2024 DESI BAO results give the strongest hint yet that this evolution may be real. | Six numbers, set by data, describe nearly everything we observe in cosmology, from the cosmic microwave background through galaxy surveys to today's expansion rate. |
| Predictions |
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| Where it breaks |
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| Key unresolved problem | The interpretation problem: if the DESI hint of changing dark energy is real, no underlying theory predicts that exact pattern, the equation of state w starting above -1 and dropping, without awkward fine-tuning. | The Hubble tension: CMB-inferred and locally measured values of H0 disagree at ~5σ, and no proposed solution has survived scrutiny. |
| Reader vote | 0% · 0 votes | 100% · 1 vote |
w0waCDM, evolving dark energy
2001 / 2003 · Consensus
Plain ΛCDM
1998 / 2020 · Consensus
Proposed
2001 / 2003
1998 / 2020
Key figures
Michel Chevallier, David Polarski, Eric Linder, DESI Collaboration
Planck Collaboration, Adam Riess, Saul Perlmutter, David Spergel
In one sentence
Lets dark energy evolve in time instead of being a fixed constant. 2024 DESI BAO results give the strongest hint yet that this evolution may be real.
Six numbers, set by data, describe nearly everything we observe in cosmology, from the cosmic microwave background through galaxy surveys to today's expansion rate.
Predictions
- Distance-redshift relation departs from ΛCDM by a measurable amount at z ≈ 0.5 to 1
- The BAO acoustic feature traces out a distance-redshift curve that bends measurably away from the ΛCDM prediction, detectable by Stage-IV surveys (LSST, Euclid) mapping the feature across many redshifts
- Stage-IV surveys (LSST, Euclid, Roman) should crisply confirm or refute the trend within the next decade
- If (w0 > -1, wa < 0) is real, dark energy crosses the phantom barrier (w = -1) toward more negative w in the past, then trends less negative toward today
- Cosmic microwave background temperature anisotropies have a specific acoustic peak structure, peaking at angular scales near 1 degree, with secondary peaks at well-defined harmonics
- A baryon acoustic oscillation feature at ~150 Mpc (comoving) in galaxy clustering at all redshifts where galaxies form
- [[Big Bang Nucleosynthesis]] primordial abundances of ~75% hydrogen, ~25% helium-4, and well-defined trace abundances of deuterium and lithium
- How fast cosmic structure grows and clumps, captured by the growth-rate measure fσ8(z), is predicted exactly from the matter density Ωm, the dark energy density ΩΛ, and the primordial spectrum
- H0 ≈ 67 to 68 km/s/Mpc inferred from CMB + BAO + the standard inverse-distance ladder
Where it breaks
- Efstathiou (2025) argues the signal is a low-redshift systematic in the SN Ia compilations, not real dark energy evolution
- Significance is sensitive to the choice of SN compilation; the headline 3.9σ uses DES-SN5YR, a single recent sample
- The CPL parameterization is just a simple linear approximation of how w changes near the present day (w0 + wa·(1-a)), not a fundamental theory. A real signal would still need a physical origin
- Posteriors can cross the phantom divide (w < -1), which is theoretically awkward for most quintessence models
- The Hubble tension: CMB + BAO predict H0 ≈ 67.4, the local distance ladder (SH0ES) measures H0 = 73.04 ± 1.04, a ~5σ disagreement that has resisted >100 proposed solutions
- The S8 / σ8 tension: large-scale-structure surveys (KiDS, DES) measure ~2-3σ lower clustering amplitude than CMB-fixed ΛCDM predicts
- DESI 2024 BAO combined with supernovae gives 2.5 to 3.9σ preference for an evolving equation of state (w0waCDM) over Λ, with the strongest preference using the DES-SN5YR sample
- Λ itself: no satisfactory theory explains why the vacuum energy is the observed value rather than zero or 10¹²⁰ times larger
- Dark matter has never been directly detected; all evidence is gravitational
Key unresolved problem
The interpretation problem: if the DESI hint of changing dark energy is real, no underlying theory predicts that exact pattern, the equation of state w starting above -1 and dropping, without awkward fine-tuning.
The Hubble tension: CMB-inferred and locally measured values of H0 disagree at ~5σ, and no proposed solution has survived scrutiny.
Reader vote
0% · 0 votes
100% · 1 vote