Cosmological Perturbations in Palatini Formalism

Kubota, Mio; Oda, Kin-ya; Shimada, Keigo; Yamaguchi, Masahide

doi:10.48550/arxiv.2010.07867

Cited by 1 publication

(2 citation statements)

References 63 publications

(101 reference statements)

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“…, after integrating out the nonmetricity tensor (or equivalently, the disformation tensor), the resulting Lagrangian involves (£ u ln N )2 , signaling the existence of extra degrees of freedom. This is also consistent with the analysis in[57,60].…”

supporting

confidence: 92%

“…The theory with a general affine connection is thus dubbed metric-affine gravity (MAG), which has been studied extensively [40][41][42][43][44][45][46][47][48][49][50][51][52][53][54][55]. By coupling MAG to scalar field(s), one gets the so-called "metric-affine scalar-tensor theory" [56][57][58][59][60], which can be seen as an analogue of the scalar-tensor theory in Riemannian geometry. In [61][62][63], propagation of gravitational waves has been discussed, which gives constraints on the relevant theory.…”

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confidence: 99%

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Spatially covariant gravity with nonmetricity

Yu,

Chen,

Gao

2024

Eur. Phys. J. C

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Scalar fields play an important role in constructing modified gravity theories. In the case of a single scalar field with timelike gradient, the corresponding Lagrangian in the unitary gauge takes the form of spatially covariant gravity (SCG), which is proved useful in analyzing and extending the generally covariant theories. In this work, we apply the SCG method to the scalar-nonmetricity theory, of which the Lagrangian is built of the nonmetricity tensor and a scalar field. We derive the 3+1 decomposition of the geometric quantities and especially covariant derivatives of the scalar field up to the third order in the presence of a nonvanishing nonmetricity tensor. By fixing the unitary gauge, the resulting Lagrangian takes the form of a SCG with nonmetricity, in which all the ingredients are spatial tensors. We then exhaust the scalar monomials of SCG with nonmetricity up to $$d=3$$ d = 3 with d the total number of derivatives. Since the disformation tensor plays as an auxiliary variable, we take the Lagrangian with $$d=2$$ d = 2 as an example to show that after solving the disformation tensor, we can get an effective SCG theory for the metric variables but with modified coefficients. Our results provides a novel approach to extending the scalar-nonmetricity theory.

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confidence: 92%