Exponential quintessence: curved, steep and stringy?

Andriot, David; Parameswaran, Susha; Tsimpis, Dimitrios; Wrase, Timm; Zavala, Ivonne

doi:10.1007/jhep08(2024)117

J. High Energ. Phys.

2024

DOI: 10.1007/jhep08(2024)117

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Exponential quintessence: curved, steep and stringy?

David Andriot,

Susha Parameswaran,

Dimitrios Tsimpis

et al.

Abstract: We explore the possibility that our universe’s current accelerated expansion is explained by a quintessence model with an exponential scalar potential, V = V0e−λ ϕ, keeping an eye towards λ ≥ $$ \sqrt{2} $$ 2 and an open universe, favorable to a string theory realisation and with no cosmological horizon. We work out the full cosmology of the model, including matter, radiation, and optionally negative spatial curvature, for all λ > 0,… Show more

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Cited by 7 publications

References 63 publications

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Analytic bounds on late-time axion-scalar cosmologies

Shiu,

Tonioni,

Tran

2024

J. High Energ. Phys.

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The cosmological dynamics of multiple scalar/pseudoscalar fields are difficult to solve, especially when the field-space metric is curved. This presents a challenge in determining whether a given model can support cosmic acceleration, without solving for the on-shell solution. In this work, we present bounds on late-time FLRW-cosmologies in classes of theories that involve arbitrary numbers of scalar and pseudoscalar fields coupled both kinetically (leading to a curved field space metric) and through scalar potentials. Such bounds are proven analytically, independently of initial conditions, with no approximation in the field equations and without referring to explicit solutions. Besides their broad applications to cosmological model building, our bounds can be applied to studying asymptotic cosmologies of certain classes of string compactifications.

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Analytic bounds on late-time axion-scalar cosmologies

Shiu,

Tonioni,

Tran

2024

J. High Energ. Phys.

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Charged Nariai black holes on the dark bubble

Danielsson,

Van Hemelryck

2024

Class. Quantum Grav.

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In this paper, we realise the charged Nariai black hole on a braneworld from anucleated bubble in AdS5, known as the dark bubble model. Geometrically, the black holetakes the form of a cylindrical spacetime pulling on the dark bubble. This is realised by abrane embedding in an AdS5 black string background. Identifying the brane with a D3-branein string theory allows us to determine a relation between the fine structure constant and thestring coupling, αEM = 3 gs/2, which was previously obtained for a microscopic black hole. Wealso speculate on the consequences for the Festina Lente bound and neutrino masses.

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Cosmological constraints on curved quintessence

Bhattacharya,

Borghetto,

Malhotra

et al. 2024

J. Cosmol. Astropart. Phys.

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Dynamical dark energy has gained renewed interest due to recent theoretical and observational developments. In the present paper, we focus on a string-motivated dark energy set-up, and perform a detailed cosmological analysis of exponential quintessence with potential V = V 0 e λϕ -, allowing for non-zero spatial curvature. We first gain some physical intuition into the full evolution of such a scenario by analysing the corresponding dynamical system. Then, we test the model using a combination of Planck CMB data, DESI BAO data, as well as recent supernovae datasets. For the model parameter λ, we obtain a preference for nonzero values: λ = 0.48+0.28 -0.21, 0.68+0.31 -0.20, 0.77+0.18 -0.15 at 68% C.L. when combining CMB+DESI with Pantheon+, Union3 and DES-Y5 supernovae datasets respectively. We find no significant hint for spatial curvature. We discuss the implications of current cosmological results for the exponential quintessence model, and more generally for dark energy in string theory.

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Exponential quintessence: curved, steep and stringy?

Cited by 7 publications

References 63 publications

Analytic bounds on late-time axion-scalar cosmologies

Analytic bounds on late-time axion-scalar cosmologies

Charged Nariai black holes on the dark bubble

Cosmological constraints on curved quintessence

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