Does MOND follow from the CDM paradigm?

Abstract

In a recent paper, Kaplinghat and Turner (2001) (KT) advertise that MOND can be derived naturally in the CDM paradigm. They actually proceed to produce a more limited result: Every galaxy should have a transition radius, rt, below which baryons dominate, and above which dark matter (DM) takes over; the acceleration at rt is nearly the same for all galaxies; and due to a coincidences this is of order a0 cH0. This follows from their tacit, intermediate result, whereby CDM halos of galaxies have a very nearly universal acceleration profile a(r)≈ v2(r)/r≈ A a(r/), where A is universal, and only the scale varies from halo to halo. (This remains so when baryons are added because they assume a universal baryon-collapse factor.) The KT scenario is phenomenologically wrong--observed galaxies are simply not like that. For example, it precludes altogether the existence of LSB galaxies, in which the acceleration is everywhere smaller than a0. The phenomenologically sound outcome--i.e., the role of a0 as a transition acceleration in high-surface-brightness galaxies--pertains to only a small part of the statement of MOND. There are several other, independent roles that a0 cH0 plays in MOND phenomenology, and other predictions of MOND, not related to the value of a0, that are not explainable in the KT scenario. The results of KT also disagree with those of CDM simulations, which, as they now stand, do not reproduce any aspect of MOND phenomenology.

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