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Quintessence and Supergravity

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arxiv astro-ph/9905040 v2 pith:A5HG7PU6 submitted 1999-05-05 astro-ph gr-qchep-phhep-th

Quintessence and Supergravity

classification astro-ph gr-qchep-phhep-th
keywords omegamodelapproxalphaquintessencesupergravitycoincidencefield
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In the context of quintessence, the concept of tracking solutions allows to address the fine-tuning and coincidence problems. When the field is on tracks today, one has $Q\approx m_{\rm Pl}$ demonstrating that, generically, any realistic model of quintessence must be based on supergravity. We construct the most simple model for which the scalar potential is positive. The scalar potential deduced from the supergravity model has the form $V(Q)=\frac{\Lambda^{4+\alpha}}{Q^{\alpha}}e^{\frac{\kappa}{2}Q^2}$. We show that despite the appearence of positive powers of the field, the coincidence problem is still solved. If $\alpha \ge 11$, the fine-tuning problem can be overcome. Moreover, due to the presence of the exponential term, the value of the equation of state, $\omega_Q$, is pushed towards the value -1 in contrast to the usual case for which it is difficult to go beyond $\omega_Q\approx -0.7$. For $\Omega_{\rm m}\approx 0.3$, the model presented here predicts $\omega_Q\approx -0.82$. Finally, we establish the $\Omega_{\rm m}-\omega_Q$ relation for this model.

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Cited by 1 Pith paper

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  1. The Status of Single Scalar Field Dark Energy

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    Cosmological data can constrain only a handful of EFT parameters for single-scalar dark energy; extended models show modest preference over Λ but remain underdetermined and challenged by fifth forces and screening.