Dark Energy as a Modification of the Friedmann Equation

Abstract

Dark energy could actually be the manifestation of a modification to the Friedmann equation arising from new physics (e.g., extra dimensions). Writing the correction as (1-ΩM)Hα/H0α-2, we explore the phenomenology and detectability of such. We show that: (i) α must be 1; (ii) such a correction behaves like dark energy with equation-of-state w eff = -1 + α 2 in the recent past (104> z 1) and w=-1 in the distant future and can mimic w<-1 without violating the weak-energy condition; (iii) w eff changes, dz/dw|z 0.5 O(0.2), which is likely detectable; and (iv) a future supernova experiment like SNAP that can determine w with precision σw, could determine α to precision σα≈ 2 σw.

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