17–21 Aug 2026
University of Helsinki Main Building
Europe/Helsinki timezone

Critical slowing down and bulk viscosity in binary neutron star mergers

19 Aug 2026, 17:00
20m
F4050 (4th floor) (University of Helsinki Main Building)

F4050 (4th floor)

University of Helsinki Main Building

University of Helsinki Fabianinkatu 33 Finland
poster Compact stars Poster Session

Speaker

Rachel Steinhorst (Massachusetts Institute of Technology)

Description

Hydrodynamic simulations of neutron star mergers rely on the clear separation between the strong-interaction, weak-interaction, and hydrodynamic timescales. In this effective framework, weak Urca interactions are typically the slowest microscopic processes, and therefore the Urca rate determines the bulk-viscous dissipation. This assumed hierarchy of dissipative mechanisms can be decisively altered, without invalidating hydrodynamics, if the trajectory of the matter in a neutron star merger passes through the vicinity of a possible low temperature QCD critical point. The enhanced density fluctuations lead to critical slowing down and rapid growth of transport coefficients including bulk viscosity. While this growth is regulated by finite-time effects, finite-size effects, and the breakdown of hydrodynamic scale separation, which bound the correlation length, we demonstrate that the QCD contribution to bulk viscosity can rival the electroweak contribution in realistic conditions. Thus, critical dynamics could leave observable imprints on the hydrodynamic evolution of neutron star mergers.

Authors

Jamie Karthein (MIT) Maneesha Sushama Pradeep Rachel Steinhorst (Massachusetts Institute of Technology)

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