We consider the efficacy of using luminosity distance measurements of deep
redshift supernovae to discriminate between two forms of dark energy, quint
essence (a scalar field with canonical kinetic terms rolling down a potenti
al) and k-essence (a scalar field whose cosmic evolution is driven entirely
by nonlinear kinetic terms). The primary phenomenological distinction betw
een the two types of models that can be quantified by supernova searches (a
t least in principle) is that the evaluation of state w = p/rho of quintess
ence is falling today while that of k-essence is rising. By simulating 10(5
) possible datasets that SNAP could obtain, we show that even if the mass d
ensity Ohm (m) is known exactly, an ambiguity remains that may not allow a
definitive distinction to be made between the two types of theories. (C) 20
01 Published by Elsevier Science B.V.