implementation
In this repository we present our numerical results, implementation and algorithms used in the papers:
Science Score: 67.0%
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✓CITATION.cff file
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✓codemeta.json file
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Found .zenodo.json file -
✓DOI references
Found 2 DOI reference(s) in README -
✓Academic publication links
Links to: arxiv.org, aps.org, iop.org -
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○Scientific vocabulary similarity
Low similarity (7.2%) to scientific vocabulary
Repository
In this repository we present our numerical results, implementation and algorithms used in the papers:
Basic Info
- Host: GitHub
- Owner: Mandy8808
- License: gpl-3.0
- Language: Jupyter Notebook
- Default Branch: main
- Size: 15.2 MB
Statistics
- Stars: 0
- Watchers: 1
- Forks: 0
- Open Issues: 0
- Releases: 0
Metadata Files
README.md
Numerical Implementation:
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:
On the linear stability of nonrelativistic selfinteracting boson stars
The repository LSselfinteractionBS consists of two folders: - Module: where appear a module with the used functions. - SI_BS: where appear in the folders: EingevaluesEingevectors, Profilesand_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.
Are nonrelativistic ground state ell-boson stars only stable for ell=0 and ell=1?
The repository AGSellboson 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.
Total light bending in non-asymptotically flat black hole spacetimes
The repository TLBnonasymptoticallyFBHST 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.
On the radial linear stability of nonrelativistic \ell-boson stars
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.
Owner
- Login: Mandy8808
- Kind: user
- Repositories: 1
- Profile: https://github.com/Mandy8808
Citation (CITATION.cff)
cff-version: 1.2.0 message: "If you use this software, please cite it as below." authors: - family-names: "Roque" given-names: "Armando A." orcid: "https://orcid.org/0000-0002-3290-6072" title: "Numerical repository." version: 2.0.0 # doi: 10.5281/zenodo.1234 date-released: 2023-12-01 url: "https://github.com/Mandy8808/Implementation.git" preferred-citation: # type: article # authors: # - family-names: "Roque" # given-names: "Armando A." # orcid: "https://orcid.org/0000-0002-3290-6072" # - family-names: "Sarbach" # given-names: "Olivier" # orcid: "https://orcid.org/0000-0002-0753-4449" # - family-names: "Sarbach" # given-names: "Emmanuel" # orcid: "" # doi: "10.0000/00000" # journal: "Journal Title" # month: 9 # start: 1 # First page number # end: 10 # Last page number # title: "My awesome research software" # issue: 1 # volume: 1 # year: 2021