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W2144972973 abstract "The observational effect of all minimally coupled scalar field models of dark energy can be determined by the behavior of the following two parameters: (1) equation of state parameter $w$, which relates dark energy pressure to its energy density, and (2) effective speed of sound ${c}_{e}^{2}$, which relates dark energy pressure fluctuation to its density fluctuation. In this paper we show that these two parameters do not uniquely determine the form of a scalar field dark energy Lagrangian even after taking into account the perturbation in the scalar field. We present this result by showing that two different forms of scalar field Lagrangian can lead to the same values for these paired parameters. It is well known that from the background evolution the Lagrangian of the scalar field dark energy cannot be uniquely determined. The two models of dark energy presented in this paper are indistinguishable from the evolution of background as well as from the evolution of perturbations from a Friedmann-Robertson-Walker metric." @default.
W2144972973 created "2016-06-24" @default.
W2144972973 creator A5005488127 @default.
W2144972973 date "2008-09-09" @default.
W2144972973 modified "2023-10-14" @default.
W2144972973 title "Can cosmological observations uniquely determine the nature of dark energy?" @default.
W2144972973 cites W1479685469 @default.
W2144972973 cites W1483794641 @default.
W2144972973 cites W1486339737 @default.
W2144972973 cites W1555237261 @default.
W2144972973 cites W1963581370 @default.
W2144972973 cites W1964997243 @default.
W2144972973 cites W1966302596 @default.
W2144972973 cites W1967316721 @default.
W2144972973 cites W1975783178 @default.
W2144972973 cites W1983878973 @default.
W2144972973 cites W1985076470 @default.
W2144972973 cites W1985505729 @default.
W2144972973 cites W2000158313 @default.
W2144972973 cites W2002252884 @default.
W2144972973 cites W2006578949 @default.
W2144972973 cites W2008897453 @default.
W2144972973 cites W2023724948 @default.
W2144972973 cites W2026027513 @default.
W2144972973 cites W2032901690 @default.
W2144972973 cites W2041876997 @default.
W2144972973 cites W2042355453 @default.
W2144972973 cites W2047935760 @default.
W2144972973 cites W2048724471 @default.
W2144972973 cites W2049024258 @default.
W2144972973 cites W2050878480 @default.
W2144972973 cites W2054694905 @default.
W2144972973 cites W2056558827 @default.
W2144972973 cites W2057221700 @default.
W2144972973 cites W2067681837 @default.
W2144972973 cites W2073660808 @default.
W2144972973 cites W2078466115 @default.
W2144972973 cites W2079061571 @default.
W2144972973 cites W2080116030 @default.
W2144972973 cites W2080795969 @default.
W2144972973 cites W2085931505 @default.
W2144972973 cites W2094031568 @default.
W2144972973 cites W2098466457 @default.
W2144972973 cites W2099847368 @default.
W2144972973 cites W2100272953 @default.
W2144972973 cites W2100367618 @default.
W2144972973 cites W2102463454 @default.
W2144972973 cites W2118265220 @default.
W2144972973 cites W2131279590 @default.
W2144972973 cites W2136128431 @default.
W2144972973 cites W2154748230 @default.
W2144972973 cites W2156404110 @default.
W2144972973 cites W2160433764 @default.
W2144972973 cites W2167641521 @default.
W2144972973 cites W2168527615 @default.
W2144972973 cites W2169912865 @default.
W2144972973 cites W2171548820 @default.
W2144972973 cites W2179048148 @default.
W2144972973 cites W2239117083 @default.
W2144972973 cites W2964333747 @default.
W2144972973 cites W3037532280 @default.
W2144972973 cites W3098014270 @default.
W2144972973 cites W3098084298 @default.
W2144972973 cites W3099262556 @default.
W2144972973 cites W3099320012 @default.
W2144972973 cites W3099386817 @default.
W2144972973 cites W3100326349 @default.
W2144972973 cites W3100805223 @default.
W2144972973 cites W3103582919 @default.
W2144972973 cites W3104495472 @default.
W2144972973 cites W3104525447 @default.
W2144972973 cites W3105073441 @default.
W2144972973 cites W3105247067 @default.
W2144972973 cites W3105897092 @default.
W2144972973 cites W3106037155 @default.
W2144972973 cites W3106146500 @default.
W2144972973 cites W3106516769 @default.
W2144972973 cites W3121331157 @default.
W2144972973 cites W3124923225 @default.
W2144972973 cites W4238123531 @default.
W2144972973 doi "https://doi.org/10.1103/physrevd.78.063007" @default.
W2144972973 hasPublicationYear "2008" @default.
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