Extending f(R,T) Signature Change to Anisotropic Bianchi ...

ABSTRACT

This research proposes a theoretical framework extending the f(R, Tφ) signature change mechanism to anisotropic Bianchi cosmologies with multiple scalar fields, analyzing junction conditions and dynamical isotropization post-signature transition.

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Key findings

Generalizes f(R, Tφ) gravity to anisotropic Bianchi type-I, type-II, and type-V cosmologies.

Introduces multi-field generalization of scalar fields non-minimally coupled to modified gravity.

Derives complete modified field equations and analyzes junction conditions across signature-changing hypersurfaces.

Establishes conditions for dynamical isotropization following the signature transition.

Demonstrates attractor solutions approaching isotropic de Sitter expansion in the Lorentzian domain for Bianchi-I with two scalar fields.

Limitations & open questions

Further research needed to fully understand quantum-to-classical transition in anisotropic quantum cosmology.

Observational prospects and comparison with alternative approaches require deeper investigation.

Extending f(R,T) Signature Change to Anisotropic Bianchi Cosmologies

Key findings

Limitations & open questions

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