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TDCOSMO 2025: Cosmological constraints from strong lensing time delays

Journal Article · · No journal information
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  1. SUNY, Stony Brook
  2. Fermilab; Chicago U., Astron. Astrophys. Ctr.
  3. Oxford U.
  4. Barcelona, IEEC; ICREA, Barcelona
  5. European Southern Obs., Chile; LASTRO Observ.
  6. UC, Davis
  7. Chicago U., Astron. Astrophys. Ctr.; Chicago U., KICP; SLAC
  8. Garching, Max Planck Inst.; Munich, Tech. U.
  9. Chicago U., Astron. Astrophys. Ctr.
  10. UCLA
  11. Bohr Inst.
  12. Fermilab
  13. ETH, Zurich (main)
  14. Caltech, IPAC
  15. U. of Valparaíso, Chile
  16. Tokyo U., RESCEU
  17. Chicago U., Astron. Astrophys. Ctr.; Chicago U., KICP; Independent U., Dhaka
  18. Liege U.
  19. Shanghai Jiaotong U.; Shanghai Jiao Tong U.
  20. Baltimore, Space Telescope Sci.
  21. Munich, Tech. U.; Garching, Max Planck Inst.
  22. Chicago U., Astron. Astrophys. Ctr.; Chicago U., KICP
  23. Argonne
+ Show Author Affiliations

We present cosmological constraints from 8 strongly lensed quasars (hereafter, the TDCOSMO-2025 sample). Building on previous work, our analysis incorporated new deflector stellar velocity dispersions measured from spectra obtained with the James Webb Space Telescope (JWST), the Keck Telescopes, and the Very Large Telescope (VLT), utilizing improved methods. We used integrated JWST stellar kinematics for 5 lenses, VLT-MUSE for 2, and resolved kinematics from Keck and JWST for RX J1131-1231. We also considered two samples of non-time-delay lenses: 11 from the Sloan Lens ACS (SLACS) sample with Keck-KCWI resolved kinematics; and 4 from the Strong Lenses in the Legacy Survey (SL2S) sample. We improved our analysis of line-of-sight effects, the surface brightness profile of the lens galaxies, and orbital anisotropy, and corrected for projection effects in the dynamics. Our uncertainties are maximally conservative by accounting for the mass-sheet degeneracy in the deflectors' mass density profiles. The analysis was blinded to prevent experimenter bias. Our primary result is based on the TDCOSMO-2025 sample, in combination with $$Ω_{\rm m}$$ constraints from the Pantheon+ Type Ia supernovae (SN) dataset. In the flat $$Λ$$ Cold Dark Matter (CDM), we find $$H_0=71.6^{+3.9}_{-3.3}$$ km s$$^{-1}$$ Mpc$$^{-1}$$. The SLACS and SL2S samples are in excellent agreement with the TDCOSMO-2025 sample, improving the precision on $$H_0$$ in flat $$Λ$$CDM to 4.6%. Using the Dark Energy Survey SN Year-5 dataset (DES-SN5YR) or DESI-DR2 baryonic acoustic oscillations (BAO) likelihoods instead of Pantheon+ yields very similar results. We also present constraints in the open $$Λ$$CDM, $$w$$CDM, $$w_0w_a$$CDM, and $$w_ϕ$$CDM cosmologies. The TDCOSMO $$H_0$$ inference is robust and consistent across all presented cosmological models, and our cosmological constraints in them agree with those from the BAO and SN.

Research Organization:
LASTRO Observ.; SUNY, Stony Brook; Munich, Tech. U.; Shanghai Jiao Tong U.; European Southern Obs., Chile; Bohr Inst.; Fermi National Accelerator Laboratory (FNAL), Batavia, IL (United States); Baltimore, Space Telescope Sci.; Oxford U.; ETH, Zurich (main); Caltech, IPAC; Barcelona, IEEC; UC, Davis; Independent U., Dhaka; Argonne National Laboratory (ANL), Argonne, IL (United States); Liege U.; Garching, Max Planck Inst.; SLAC National Accelerator Laboratory (SLAC), Menlo Park, CA (United States); UCLA; Tokyo U., RESCEU; Chicago U., KICP; U. of Valparaíso, Chile; ICREA, Barcelona; Shanghai Jiaotong U.; Chicago U., Astron. Astrophys. Ctr.
Sponsoring Organization:
US Department of Energy
DOE Contract Number:
89243024CSC000002
OSTI ID:
2569188
Report Number(s):
FERMILAB-PUB-25-0381-CSAID; oai:inspirehep.net:2928926; arXiv:2506.03023
Journal Information:
No journal information, Journal Name: No journal information
Country of Publication:
United States
Language:
English

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