A minimal and stable vacuum bounce in exponential f(R) gravity

Authors

• Gamal Nashed, The British University in Egypt
• A Eid, Department of Physics, College of Science, Imam Mohammad Ibn Saud Islamic University (IMSIU), Riyadh, Saudi Arabia

Document Type

Article

Publication Date

4-2026

Abstract

We investigate the realization of a nonsingular cosmological bounce in metric f(R) gravity using a controlled exponential deformation of the Starobinsky R2 model. Adopting a smooth Gaussian-type bouncing scale factor, we first demonstrate a no-go result showing that a positive-curvature vacuum bounce cannot be supported by the model f(R)=R+αR2(1-e-R/Rb) alone. We then show that a minimal extension obtained by introducing a constant term restores the bounce exactly, with the constant fixed algebraically by the bounce condition. A systematic parameter-space scan is performed to identify regions free of ghost and tachyonic instabilities. Working in the Einstein frame, we study the evolution of scalar and tensor perturbations across the bounce and show that both remain finite and well behaved. Our results establish a minimal, perturbatively stable realization of a vacuum bounce in f(R) gravity that goes beyond background-level constructions.

Recommended Citation

Nashed, Gamal and Eid, A, "A minimal and stable vacuum bounce in exponential f(R) gravity" (2026). Centre for Theoretical Physics and Computations. 390.
https://buescholar.bue.edu.eg/centre_theoretical_physics/390