Rita B. Neves scite author profile

Recently, States of Low Energy (SLEs) have been proposed as viable vacuum states of primordial perturbations within Loop Quantum Cosmology (LQC). In this work we investigate the effect of the high curvature region of LQC on the definition of SLEs. Shifting the support of the test function that defines them away from this regime results in primordial power spectra of perturbations closer to those of the so-called Non-oscillatory (NO) vacuum, which is another viable choice of initial conditions previously introduced in the LQC context. Furthermore, through a comparison with the Hadamard-like SLEs, we prove that the NO vacuum is of Hadamard type as well.

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Solvable loop quantum cosmology: Domain of the volume observable and semiclassical states

Martín-Benito

Neves

2019

Phys. Rev. D

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The dynamics of a flat Friedmann-Lemaître-Robertson-Walker model minimally coupled to a massless scalar field has been intensively studied in the context of Loop Quantum Cosmology. This model admits an appropriate solvable representation, named sLQC. The form of the domain of the volume, the main observable to track the quantum evolution, is not straightforward in this solvable representation, and its explicit construction has been overlooked so far. In this work we find the explicit form of physical states belonging to the domain of the volume in sLQC. Specifically, given a physical state in the v-representation where the volume acts diagonally, we derive its form in the representation employed in sLQC, making explicit the connection between both representations at the physical level. To this end, we resort to the Wheeler-De Witt (WDW) approach, which shares the physical Hilbert space with sLQC when cast in an analog solvable representation, while being analytically solvable as well in the v-representation. Then the domain of the volume for the WDW approach provides that for sLQC. Furthermore, we address the question of semiclassicality in sLQC.

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Non-oscillatory power spectrum from States of Low Energy in kinetically dominated early universes

Martín-Benito¹,

Neves²,

Olmedo³

2021

Preprint

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States of low energy in the Schwinger effect

Álvarez-Domínguez

Garay

Martín-Benito

et al. 2023

J. High Energ. Phys.

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States of low energy in cosmology minimise the energy density when smeared in a chosen time interval. We extend such construction to generic homogeneous (possibly anisotropic) particle creation settings. Focusing on the Schwinger effect, we study the role played by the support of the smearing function and identify the vacua obtained in the limiting cases of small and large time intervals. We also analyse the spectral properties of the power spectrum and the number of created particles, which are complementary in characterising the vacuum, and investigate the multipolar contributions coming from the anisotropies.

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Rita B. Neves

States of low energy in bouncing inflationary scenarios in loop quantum cosmology

Non-Oscillatory Power Spectrum From States of Low Energy in Kinetically Dominated Early Universes

Solvable loop quantum cosmology: Domain of the volume observable and semiclassical states

Non-oscillatory power spectrum from States of Low Energy in kinetically dominated early universes

States of low energy in the Schwinger effect

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