Um simulador Python de Sistemas Exoplanetários para curvas de luz e velocidades radiais.
Project description
pyExopS (Python Exoplanetary Systems Simulator)
pyExopS is a Python-based simulator designed to generate realistic observational data for exoplanetary systems. It aims to provide a flexible and extensible platform for studying phenomena like planetary transits, stellar activity, and various observational systematics.
Features
- Realistic Star Model: Includes quadratic limb darkening and dynamic stellar spots (umbra and penumbra).
- Planet Model: Customizable orbiting planets with definable physical and orbital parameters.
- Advanced PSF Modeling: Supports Gaussian, Moffat, Airy Disk, Elliptical Gaussian, and Combined Point Spread Functions to simulate realistic instrumental and atmospheric blurring.
- Noise Injection: Injects Poisson (photon) noise and Gaussian (readout) noise for true-to-life data.
- Photometry Methods: Implements various photometric extraction techniques:
- Simple Aperture Photometry (SAP)
- Optimal Photometry
- PSF Fitting Photometry
- Simplified Difference Imaging Photometry (DIP)
- Data Conditioning: Includes a PDCSAP-like detrending algorithm to remove instrumental and astrophysical systematics from light curves while preserving transit signals.
- Variable Cadence: Allows simulation of observations with non-uniform time sampling (e.g., high cadence during transit, low cadence out-of-transit).
- Parallel Processing: Leverages Dask for efficient parallel computation across multicore CPUs, NVIDIA GPUs (Dask-CUDA), or distributed clusters.
Installation
You can install pyExopS using pip:
pip install pyexops
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