GD-1 and the Milky Way Starless Subhalos
Raymond G. Carlberg
arXiv:2503.13290v2 Announce Type: replace
Abstract: Measurements of the GD-1 star stream velocity distribution within $pm$3 degrees of the centerline find a total line of sight velocity spread of 5-6 km/s in the well measured $phi_1=$ [-30, 0] region (Valluri25). The velocity spread is far above the $sim$2-3 km/s of a dissolved globular cluster in a smooth galactic potential. The dynamical heating of the GD-1 star stream is simulated in an evolving model Milky Way potential which includes the subhalos extracted from cosmological CDM and WDM Milky Way-like halos. The model bridges fully cosmological Milky Way-like halos and late time static Milky Way potentials allowing individual streams to be accurately integrated. An evolving CDM subhalo population acting for $sim$11 Gyr heats GD-1 to 6.2 km/s. The WDM (7 keV and lighter) models develop a velocity dispersion of 3.9 km/s, only slightly greater than the 3.5 km/s in an evolving smooth halo without subhalos for 11 Gyr. The dynamical age of the best model stream is close to the isochrone age of the stars in the stream. Subhalos with masses in the decade around $10^{7.5} M_odot$, below the mass range of dwarf galaxies, dominate the dynamical stream heating.arXiv:2503.13290v2 Announce Type: replace
Abstract: Measurements of the GD-1 star stream velocity distribution within $pm$3 degrees of the centerline find a total line of sight velocity spread of 5-6 km/s in the well measured $phi_1=$ [-30, 0] region (Valluri25). The velocity spread is far above the $sim$2-3 km/s of a dissolved globular cluster in a smooth galactic potential. The dynamical heating of the GD-1 star stream is simulated in an evolving model Milky Way potential which includes the subhalos extracted from cosmological CDM and WDM Milky Way-like halos. The model bridges fully cosmological Milky Way-like halos and late time static Milky Way potentials allowing individual streams to be accurately integrated. An evolving CDM subhalo population acting for $sim$11 Gyr heats GD-1 to 6.2 km/s. The WDM (7 keV and lighter) models develop a velocity dispersion of 3.9 km/s, only slightly greater than the 3.5 km/s in an evolving smooth halo without subhalos for 11 Gyr. The dynamical age of the best model stream is close to the isochrone age of the stars in the stream. Subhalos with masses in the decade around $10^{7.5} M_odot$, below the mass range of dwarf galaxies, dominate the dynamical stream heating.