Abstract
Several aspects of torsion in string-inspired cosmologies are reviewed. In particular, its connection with fundamental, string-model independent, axion fields associated with the massless gravitational multiplet of the string are discussed. It is argued in favour of the role of primordial gravitational anomalies coupled to such axions in inducing inflation of a type encountered in the “Running-Vacuum-Model (RVM)” cosmological framework, without fundamental inflaton fields. The gravitational-anomaly terms owe their existence to the Green–Schwarz mechanism for the (extra-dimensional) anomaly cancellation, and may be non-trivial in such theories in the presence of (primordial) gravitational waves at early stages of the four-dimensional string universe (after compactification). The paper also discusses how the torsion-induced stringy axions can acquire a mass in the post inflationary era, due to non-perturbative effects, thus having the potential to play the role of (a component of) dark matter in such models. Finally, the current-era phenomenology of this model is briefly described with emphasis placed on the possibility of alleviating tensions observed in the current-era cosmological data. A brief phenomenological comparison with other cosmological models in contorted geometries is also made.
Highlights
A Case for Going beyond GeometryGeneral Relativity (GR) and Riemannian GeometryGeneral Relativity (GR) has provided a very successful framework for the classical description of gravitational interaction [1], which works and has been tested very well at both local and global scales
The remaining 95% of the observable universe’s current energy budget consists of unknown substances: ~25% of the universe budget appears to be Dark Matter (DM), which currently is of an unknown origin, and we only have astrophysical evidence for its existence, and ~70% corresponds to an unknown form of energy, responsible for the universe’s acceleration, which in the current-era behaves as a positive cosmological constant (there is, the trend of Modified Newtonian Dynamics (MOND) [6], and its relativistic field theory variants [7], which claim that there is no DM in the universe, but only modified gravity laws at galactic scales
The presence of the pseudoscalar leads to axion secondary hair in the black holes of the theory [67]
Summary
General Relativity (GR) has provided a very successful framework for the classical description of gravitational interaction [1], which works and has been tested very well at both local (terrestrial, astrophysical) and global (cosmological) scales. The presence of the pseudoscalar leads to axion secondary hair in the (spinning) black holes of the theory [67] Before moving onto the string-inspired cosmological model, let us first review briefly how the RVM frameork (2) describes the entire evolution of the universe from its early inflationary de Sitter era, to the modern one, where again the universe seems (from the current interpretation of cosmological data) to enter another de Sitter phase This comes about by considering the Einstein’s equations written in the form: m. The essential features of the RVM evolution are valid in its string-inspired extension, which we proceed to discuss in some detail
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
