Timing and Lensing of the Colliding Bullet Clusters: barely enough time and gravity to accelerate the bullet

Abstract

We present semi-analytical constraint on the amount of dark matter in the merging bullet galaxy cluster using the classical Local Group timing arguments. We consider particle orbits in potential models which fit the lensing data. Marginally consistent CDM models in Newtonian gravity are found with a total mass MCDM = 1 x 1015Msun of Cold DM: the bullet subhalo can move with VDM=3000km/s, and the "bullet" X-ray gas can move with Vgas=4200km/s. These are nearly the maximum speeds that are accelerable by the gravity of two truncated CDM halos in a Hubble time even without the ram pressure. Consistency breaks down if one adopts higher end of the error bars for the bullet gas speed (5000-5400km/s), and the bullet gas would not be bound by the sub-cluster halo for the Hubble time. Models with VDM~ 4500km/s ~ Vgas would invoke unrealistic large amount MCDM=7x 1015Msun of CDM for a cluster containing only ~ 1014Msun of gas. Our results are generalisable beyond General Relativity, e.g., a speed of 4500 is easily obtained in the relativistic MONDian lensing model of Angus et al. (2007). However, MONDian model with little hot dark matter MHDM 0.6× 1015 and CDM model with a small halo mass 1× 1015 are barely consistent with lensing and velocity data.