The inheritance of energy conditions: Revisiting no-go theorems in string compactifications

Bernardo, Heliudson; Brahma, Suddhasattwa; Faruk, Mir Mehedi

doi:10.48550/arxiv.2208.09341

Cited by 3 publications

(4 citation statements)

References 41 publications

(32 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Having said that, though, we also remark that our string inspired cosmology at late epochs, which has been the focus of our work in this article, has its origin in supergravity theories which describe low-energy effective string theories at early times. In [137], it has been argued that higher-dimensional string-compatible supergravity actions, corresponding to the standard content of the massless string spectrum, as in our case in this article, do satisfy all the energy conditions, provided quantum corrections are ignored. Such higher-dimensional energy conditions might induce the preservation of the four-dimensional energy conditions, so we might expect this to characterize our models.…”

Section: Energy Conditions and Tcc In The Strvmmentioning

confidence: 66%

Stringy running vacuum model and current tensions in cosmology

Gómez-Valent,

Mavromatos,

Solà Peracaula

2023

Class. Quantum Grav.

View full text Add to dashboard Cite

We discuss the potential alleviation ofboththe Hubble and the growth of galactic structure data tensions observed in the current epoch of cosmology in the context of the so-called stringy running vacuum model (RVM) of cosmology. This is a gravitational field theory coupled to matter, which, at early eras, contains gravitational (Chern–Simons (CS) type) anomalies and torsion, arising from the fundamental degrees of freedom of the massless gravitational multiplet of an underlying microscopic string theory. The model leads to RVM type inflation without external inflatons, arising from the quartic powers of the Hubble parameter that characterize the vacuum energy density due to primordial-gravitational-wave-induced anomaly CS condensates, and dominate the inflationary era. In modern eras, of relevance to this work, the gravitational anomalies are cancelled by chiral matter, generated at the end of the RVM inflationary era, but cosmic radiation and other matter fields are still responsible for a RVM energy density with terms exhibiting a quadratic-power-of-Hubble-parameter dependence, but also products of the latter with logarithmicH-dependencies, arising from potential quantum-gravity and quantum-matter loop effects. In this work, such terms are examined phenomenologically from the point of view of the potential alleviation of the aforementioned current tensions in cosmology. Using standard information criteria, we find that these tensions can be substantially alleviated in a way consistent not only with the data, but also with the underlying microscopic theory predictions, associated with the primordial dynamical breaking of supergravity that characterize a pre-RVM-inflationary phase of the model.

show abstract

Section: Energy Conditions and Tcc In The Strvmmentioning

confidence: 66%

Stringy running vacuum model and current tensions in cosmology

Gómez-Valent,

Mavromatos,

Solà Peracaula

2023

Class. Quantum Grav.

View full text Add to dashboard Cite

show abstract

“…A key open issue is a clear derivation of VECROs in cosmology from superstring theory. At a superficial level, our proposed gas of VECROs is in tension with energy conditions for an effective four space-time dimensional theory derived from string theory [48,49], where it is shown that the Null Energy Condition (NEC) must be obeyed. While our total energy density obeys the NEC, the gas of VECROs does not since it has negative energy density.…”

Section: Discussionmentioning

confidence: 99%

“…While our total energy density obeys the NEC, the gas of VECROs does not since it has negative energy density. The assumptions made in [48,49] on the continuity properties of the scale factor are obeyed in our model, our VECROs are quantum objects, and hence the analysis of [48,49] does not directly apply. Nevertheless, this issue requires further study.…”

Section: Discussionmentioning

confidence: 99%

A bouncing cosmology from VECROs

Brandenberger

Mitchell

2023

Eur. Phys. J. C

View full text Add to dashboard Cite

show abstract

“…Such transient acceleration is in fact generic in flux compactifications, see [11] for a review, although de Sitter space is still ruled out by the SEC, if the time-independence of the 4d Newton's constant is obeyed in a conventional way [12]. If instead the time-independence of the 4d Newton's constant is obeyed in an averaged way, even de Sitter space is not ruled out by the SEC, although the so-called dominant energy condition does rule out non-singular de Sitter compactifications [13] (see also [14,15] for a recent discussion on energy conditions).…”

Section: Jhep01(2023)033mentioning

confidence: 99%

Universal accelerating cosmologies from 10d supergravity

Marconnet

Tsimpis

2023

J. High Energ. Phys.

View full text Add to dashboard Cite

We study 4d Friedmann-Lemaître-Robertson-Walker cosmologies obtained from time-dependent compactifications of Type IIA 10d supergravity on various classes of 6d manifolds (Calabi-Yau, Einstein, Einstein-Kähler). The cosmologies we present are universal in that they do not depend on the detailed features of the compactification manifold, but only on the properties which are common to all the manifolds belonging to that class. Once the equations of motion are rewritten as an appropriate dynamical system, the existence of solutions featuring a phase of accelerated expansion is made manifest. The fixed points of this dynamical system, as well as the trajectories on the boundary of the phase space, correspond to analytic solutions which we determine explicitly. Furthermore, some of the resulting cosmologies exhibit eternal or semi-eternal acceleration, whereas others allow for a parametric control on the number of e-foldings. At future infinity, one can achieve both large volume and weak string coupling. Moreover, we find several smooth accelerating cosmologies without Big Bang singularities: the universe is contracting in the cosmological past (T < 0), expanding in the future (T > 0), while in the vicinity of T = 0 it becomes de Sitter in hyperbolic slicing. We also obtain several cosmologies featuring an infinite number of cycles of alternating periods of accelerated and decelerated expansions.

show abstract

The inheritance of energy conditions: Revisiting no-go theorems in string compactifications

Cited by 3 publications

References 41 publications

Stringy running vacuum model and current tensions in cosmology

Stringy running vacuum model and current tensions in cosmology

A bouncing cosmology from VECROs

Universal accelerating cosmologies from 10d supergravity

Contact Info

Product

Resources

About