Pushing the limits of SExtractor
This repository contains all of the work I did during my semester project in the spring semester of 2018, as part of my Physics Master ETH degree. For this I travelled to the Harvard-Smithsonian Center of Astrophysics in Cambridge, MA, to work with Sandro Tacchella1, Daniel Eisenstein1 and Ben Johnson1 on source extraction methods suited for the upcoming JWST deep imaging data. Alexandre Refregier2 supervised my work from ETH.
datafolder contains:- HST extreme deep field fits files for various bands
- 3D-HST catalog
- a H band PSF
- a pickled version of the final catalog
*.ipynbfiles are Jupyter notebooks that document the researchmmse.pycontains the finalMultiModeSourceExtractorclass
Before running any notebooks, download the HST XDF data
cd ./data/
wget $(cat hlsp_xdf_hst_download_v1.txt)
- Overshredding: analysis on SExtractor's parameters and how to get it to detect sub-structures
- Kernels: comparison of the detections obtained using different filtering kernels
- Asymmetries: analysis on the difference between peak value and barycentre of detected objects in order to set priors on final positions
- Multi Mode Source Extractor: example on how to use MMSE using H and I bands of HST XDF images
- Stacking: example on how to increase detection efficiency by stacking multiple H bands together
To see the notebooks, run jupyter notebook from the root directory of the project.
The Slides notebook contains a short presentation about my work. To see the presentation run
jupyter nbconvert Slides.ipynb --to slides --post serve
from the root directory of the project or run it as a normal notebook and start it with the RISE extension.