In this repository we present a set of Python modules, Jupyter and Mathematica notebook used to study the stability of scalar-compact objects. The numerical implementations and algorithms correspond to the results reported in the papers:
The repository LS_selfinteraction_BS consists of two folders:
- Module: where appear a module with the used functions.
- SI_BS: where appear in the folders: Eingevalues_Eingevectors, Profiles_and_Modes and Plots the jupyter's notebooks used for the background solution, its perturbations, and generate some plots.
Note: We don’t include in this repository all our numerical data profiles for the different modes. However, this could be solicited by email or computed using the present notebooks.
The repository AGS_ell_boson consists of two folders:
- Modules: where appear the different modules used.
- ell_boson: where appear the jupyter's notebooks used for the background solution, its perturbations, and generate some plots.
The repository TLB_non_asymptoticallyFBHST comprises two folders:
- Mathematica's notebook: This folder contains Mathematica notebooks presenting the null-geodesic solutions and the triangular configurations studied.
- Python jupyter's notebooks: This folder includes Jupyter notebooks utilized for validating the Mathematica results and generating the plots.
The repository RL_Stability consists of two folders:
- Modules: where appear the different modules used.
- ell_boson: where appear the jupyter's notebooks used to computed the background solutions, its perturbations, and generate some plots.