Litcius/Paper detail

celmech: A Python Package for Celestial Mechanics

Sam Hadden, Daniel Tamayo

2022The Astronomical Journal18 citationsDOIOpen Access PDF

Abstract

Abstract We present celmech , an open-source Python package designed to facilitate a wide variety of celestial mechanics calculations. The package allows users to formulate and integrate equations of motion incorporating user-specified terms from the classical disturbing function expansion of the interaction potential between pairs of planets. The code can be applied, for example, to isolate the contribution of particular resonances to a system’s dynamical evolution and develop simple analytical models with the minimum number of terms required to capture a particular dynamical phenomenon. Equations and expressions can be easily manipulated by leveraging the extensive symbolic mathematics capabilities of the sympy Python package. The celmech package is designed to interface seamlessly with the popular N -body code REBOUND to facilitate comparisons between calculation results and direct N -body integrations. The code is extensively documented, and numerous example Jupyter notebooks illustrating its use are available online.

Topics & Concepts

Python (programming language)Computer scienceCelestial mechanicsProgramming languageComputational scienceCode (set theory)Dynamical systems theoryTheoretical computer sciencePhysicsClassical mechanicsQuantum mechanicsSet (abstract data type)Scientific Research and DiscoveriesStellar, planetary, and galactic studiesAstro and Planetary Science
celmech: A Python Package for Celestial Mechanics | Litcius