Litcius/Paper detail

A Hydrodynamical Simulations-based Model that Connects the FRB DM–Redshift Relation to Suppression of the Matter Power Spectrum via Feedback

Kritti Sharma, E. Krause, Vikram Ravi, Robert Reischke, R. S. Pranjal, Liam Connor

2025The Astrophysical Journal9 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the impact of baryonic feedback on the small-scale ( k ≳ 1 h Mpc −1 ) matter power spectrum is a key astrophysical challenge, and essential for interpreting data from upcoming weak-lensing surveys, which require percent-level accuracy to fully harness their potential. Astrophysical probes, such as the kinematic and thermal Sunyaev–Zel’dovich effects, have been used to constrain feedback at large scales ( k ≲ 5 h Mpc −1 ). The sightline-to-sightline variance in the fast radio bursts (FRBs) dispersion measure (DM) correlates with the strength of baryonic feedback and offers unique sensitivity at scales up to k ∼ 10 h Mpc −1 . We develop a new simulation-based formalism in which we parameterize the distribution of DM at a given redshift, p (DM∣ z ), as a log-normal with its first two moments computed analytically in terms of cosmological parameters and the feedback-dependent electron power spectrum P ee ( k , z ). We find that the log-normal parameterization provides an improved description of the p (DM∣ z ) distribution observed in hydrodynamical simulations as compared to the standard F -parameterization. Our model robustly captures the baryonic feedback effects across a wide range of baryonic feedback prescriptions in hydrodynamical simulations, including IllustrisTNG , SIMBA , and Astrid . Leveraging simulations incorporates the redshift evolution of the DM variance by construction and facilitates the translation of constrained feedback parameters to the suppression of matter power spectrum relative to gravity-only simulations. We show that with 10 4 FRBs, the suppression can be constrained to percent-level precision at large scales and ∼10% precision at scales k ≳ 10 h Mpc −1 with prior-to-posterior 1 σ constraint width ratio ≳20.

Topics & Concepts

PhysicsRedshiftAstrophysicsSpectral densityMatter power spectrumSpectrum (functional analysis)Power (physics)Relation (database)Dark matterStatistical physicsGalaxyQuantum mechanicsComputer scienceStatisticsDatabaseMathematicsCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchGalaxies: Formation, Evolution, Phenomena