Code for simulating inflation, including Lagrangians with non-canonical kinetic energy.
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Updated
Sep 8, 2019 - Mathematica
Code for simulating inflation, including Lagrangians with non-canonical kinetic energy.
A quick code that not only describes how the inflationary era is studied, but also manages to generate a blue tilted tensor spectral index through fine tuning.
We provide a consistent description of the reheating era of a constrained Gauss-Bonnet model by using the same free parameters that result in a viable inflationary era. The theory predicts a propagation velocity of tensor perturbations which is equal to unity in order to be in agreement with the GW170817 event. The reheating era turns out to be …
Short code which facilitates the study of the inflationary era for an arbitrary canonical scalar field model non-minimally coupled to the Gauss-Bonnet topological invariant. The study successfully describes primordial gravitational waves which propagate through spacetime with the velocity of light.
We study the Swampland criteria for canonical scalar potentials for the case of a rescaled f(R) gravity under the assumption that a Parity odd string corretive term is present.
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