{"dataset":{"slug":"astronomy-software","title":"Astronomy Software","description":"The astronomy software ecosystem — the desktop planetariums and imaging/acquisition apps added by the Astronomical Software Ecosystem program (astronomy_software) alongside the scientific tools and libraries (IRAF, CASA, TOPCAT, DS9, Aladin, AstroImageJ, Montage, Skyfield, poliastro, Orekit) and the Astropy ecosystem already in research_software. Only well-established facts (purpose, platforms); nothing fabricated.","version":"1.0.0","lastGenerated":"2026-06-29","license":"CC BY-SA 4.0","entityCount":29,"sources":["nasa"]},"entities":[{"id":"research_software:aladin","name":"Aladin","type":"research_software","domain":"science","description":"An interactive sky-atlas application from the Strasbourg astronomical data centre that lets the user overlay images, surveys, and catalogues on the same patch of sky and query Virtual Observatory services directly. Aladin is a central tool for cross-identifying objects across archives.","entryPath":"/astronomy-software/aladin"},{"id":"astronomy_software:ascom","name":"ASCOM Platform","type":"astronomy_software","domain":"science","description":"A widely adopted standard and driver platform on Windows that lets astronomy software talk to mounts, cameras, focusers, and other devices through a common interface, so any compliant application can control any compliant device. ASCOM is the interoperability glue of the Windows astrophotography ecosystem.","entryPath":"/astronomy-software/ascom"},{"id":"research_software:astroimagej","name":"AstroImageJ","type":"research_software","domain":"science","description":"An astronomy-focused build of the ImageJ image-analysis program, adding precise astronomical image display, calibration, and differential photometry. AstroImageJ is especially popular for measuring exoplanet transit light curves from amateur and small-professional telescopes.","entryPath":"/astronomy-software/astroimagej"},{"id":"research_software:astropy","name":"Astropy","type":"research_software","domain":"science","description":"The community-developed core package for astronomy in Python, providing the shared building blocks the field relies on: physical units and constants, celestial coordinate transformations, time scales, cosmological calculations, and reading and writing of FITS and other data formats. A large ecosystem of affiliated packages builds on its foundation.","entryPath":"/astroinformatics/astropy"},{"id":"research_software:astroquery","name":"Astroquery","type":"research_software","domain":"science","description":"An Astropy-affiliated package that lets researchers query the major astronomical archives and databases directly from code. Instead of clicking through web forms, a scientist can pull catalogues and images from MAST, VizieR, SIMBAD, and dozens of other services programmatically, making analyses scriptable and repeatable.","entryPath":"/astroinformatics/astroquery"},{"id":"astronomy_software:cartes-du-ciel","name":"Cartes du Ciel","type":"astronomy_software","domain":"science","description":"A free, open-source sky-charting program (also known as SkyChart) that draws detailed star charts from a choice of catalogues for any time and place, with strong support for telescope control and finder charts. It is a long-standing favourite for planning deep-sky observing.","entryPath":"/astronomy-software/cartes-du-ciel"},{"id":"research_software:casa","name":"CASA","type":"research_software","domain":"science","description":"The Common Astronomy Software Applications package, the primary tool for calibrating and imaging data from radio interferometers, developed for ALMA and the Very Large Array. CASA turns the raw visibilities of an interferometer into scientific images and cubes.","entryPath":"/astronomy-software/casa"},{"id":"astronomy_software:celestia","name":"Celestia","type":"astronomy_software","domain":"science","description":"A free, open-source real-time 3D space simulator that lets the user fly beyond the Earth's sky to visit the planets, moons, stars, and galaxies, viewing the Solar System and beyond from any vantage point. Unlike a planetarium fixed to the ground, Celestia treats space itself as the stage.","entryPath":"/astronomy-software/celestia"},{"id":"astronomy_software:deepskystacker","name":"DeepSkyStacker","type":"astronomy_software","domain":"science","description":"A free program that automates the registration and stacking of deep-sky exposures together with their calibration frames, producing a single high-signal image ready for final processing. Its simplicity has made it a popular first step in many deep-sky imaging workflows.","entryPath":"/astronomy-software/deepskystacker"},{"id":"astronomy_software:ekos","name":"Ekos","type":"astronomy_software","domain":"science","description":"A complete astrophotography suite built into KStars and driven by INDI, handling alignment and plate solving, focusing, guiding, and fully scheduled imaging sequences. Ekos brings professional-style automated acquisition to a free, cross-platform stack.","entryPath":"/astronomy-software/ekos"},{"id":"astronomy_software:indi","name":"INDI","type":"astronomy_software","domain":"science","description":"A free, open-source, cross-platform protocol and driver framework — the Instrument-Neutral Distributed Interface — that controls astronomical instruments over a network, independent of any single application. INDI is the device layer beneath Ekos and much of the Linux and cross-platform imaging ecosystem.","entryPath":"/astronomy-software/indi"},{"id":"research_software:iraf","name":"IRAF","type":"research_software","domain":"science","description":"The Image Reduction and Analysis Facility, a classic suite for the reduction and analysis of astronomical images and spectra developed at the US national optical observatory. Once ubiquitous in professional astronomy, it is no longer actively developed by the observatory but is maintained by the community, and much of its role has passed to the Python ecosystem.","entryPath":"/astronomy-software/iraf"},{"id":"research_software:jupyter-notebooks","name":"Jupyter Notebooks","type":"research_software","domain":"science","description":"Interactive documents that weave together live code, results, plots, and narrative text in one place. Notebooks have become the default medium for exploratory analysis, teaching, and sharing reproducible research in astronomy, and they sit at the heart of the cloud-based science platforms now serving the largest surveys.","entryPath":"/astroinformatics/jupyter-notebooks"},{"id":"astronomy_software:kstars","name":"KStars","type":"astronomy_software","domain":"science","description":"A free, open-source desktop planetarium and observation planner from the KDE project, showing the sky for any date and location with millions of stars and thousands of deep-sky objects. KStars integrates the Ekos astrophotography suite, making it a complete free platform for both planning and capturing images.","entryPath":"/astronomy-software/kstars"},{"id":"research_software:montage","name":"Montage","type":"research_software","domain":"science","description":"A toolkit for assembling astronomical images into custom mosaics, reprojecting many overlapping FITS images onto a common grid and matching their backgrounds to make a seamless whole. Montage is used to build large image mosaics from survey data while preserving flux.","entryPath":"/astronomy-software/montage"},{"id":"astronomy_software:nina","name":"N.I.N.A.","type":"astronomy_software","domain":"science","description":"A free, open-source imaging-suite application that sequences and automates a night of astrophotography — slewing, plate solving, focusing, guiding, and capturing calibrated exposures — through connected mounts, cameras, and accessories. It orchestrates the whole acquisition side of the imaging chain.","entryPath":"/astronomy-software/nina"},{"id":"research_software:orekit","name":"Orekit","type":"research_software","domain":"science","description":"A mature, low-level space-flight-dynamics library in Java (with Python bindings) providing high-precision orbit propagation, attitude modelling, time and frame transformations, and maneuver planning. Orekit is used in professional mission analysis and operations for its accuracy and breadth.","entryPath":"/astronomy-software/orekit"},{"id":"astronomy_software:phd2","name":"PHD2 Guiding","type":"astronomy_software","domain":"science","description":"A free, open-source autoguiding application — the name stands for 'Push Here Dummy' — that images a guide star and issues corrections to the mount to hold a target steady through long exposures. PHD2 is the de-facto standard guider, used on its own or driven by imaging suites like N.I.N.A. and Ekos.","entryPath":"/astronomy-software/phd2"},{"id":"astronomy_software:pixinsight","name":"PixInsight","type":"astronomy_software","domain":"science","description":"A professional-grade image-processing platform built specifically for astrophotography, with a full pipeline from calibration and registration to advanced noise reduction, deconvolution, and colour work. Its scriptable, high-precision tools make it the standard choice for serious deep-sky imagers.","entryPath":"/astronomy-software/pixinsight"},{"id":"research_software:poliastro","name":"poliastro","type":"research_software","domain":"science","description":"A Python library for interactive astrodynamics and orbital mechanics — defining orbits, propagating them, and planning maneuvers — built on Astropy's units and time handling. Its active development is now archived, with the work continuing in a successor library, but it remains a well-known tool for orbit computations.","entryPath":"/astronomy-software/poliastro"},{"id":"research_software:ds9","name":"SAOImage DS9","type":"research_software","domain":"science","description":"A widely used astronomical imaging and data-visualisation application for displaying FITS images, with support for multiple frames, colour scales, region analysis, and coordinate overlays. DS9 is a standard viewer for inspecting professional image data.","entryPath":"/astronomy-software/ds9"},{"id":"research_software:scientific-visualization","name":"Scientific Visualization","type":"research_software","domain":"science","description":"The tools and craft of turning data into images that reveal structure — from the ubiquitous Matplotlib plots to interactive and three-dimensional renderings of simulations and surveys. Visualisation is both how astronomers explore their data and how they communicate discoveries.","entryPath":"/astroinformatics/scientific-visualization"},{"id":"astronomy_software:siril","name":"Siril","type":"astronomy_software","domain":"science","description":"A free, open-source image-processing program for astrophotography that calibrates, registers, and stacks sequences of exposures and then processes the result, with plate solving and scripting built in. It is a capable free alternative for the full path from raw frames to a finished image.","entryPath":"/astronomy-software/siril"},{"id":"research_software:skyfield","name":"Skyfield","type":"research_software","domain":"science","description":"A Python library for computing precise positions of stars, planets, and satellites as seen from any point on the Earth or in space, using the same JPL ephemerides and reference frames as professional astronomy. Skyfield is a popular modern tool for accurate, easy positional astronomy.","entryPath":"/astronomy-software/skyfield"},{"id":"astronomy_software:skysafari","name":"SkySafari","type":"astronomy_software","domain":"science","description":"A widely used mobile and desktop planetarium app that shows the sky in the observer's hand and can point a computerised telescope at any object with a tap. SkySafari combines a large object database with real-time sky simulation and telescope control for use at the eyepiece.","entryPath":"/astronomy-software/skysafari"},{"id":"astronomy_software:stellarium","name":"Stellarium","type":"astronomy_software","domain":"science","description":"A free, open-source planetarium that renders a photorealistic sky in real time, showing the stars, planets, constellations, and deep-sky objects as they appear from any location and time. Widely used for planning observing sessions and for teaching, Stellarium can also control telescopes and simulate the view through different eyepieces.","entryPath":"/astronomy-software/stellarium"},{"id":"research_software:sunpy","name":"SunPy","type":"research_software","domain":"science","description":"The community package for solar physics in Python, the solar counterpart to Astropy. It provides the data structures, coordinate frames, and access to solar observatory archives that let researchers analyse images and time series of the Sun within the same open scientific-Python ecosystem.","entryPath":"/astroinformatics/sunpy"},{"id":"research_software:scientific-python-ecosystem","name":"The Scientific Python Ecosystem","type":"research_software","domain":"science","description":"The open-source foundation of modern astronomical computing: the Python language together with NumPy for array mathematics, SciPy for scientific algorithms, and pandas for tabular data. Free and community-built, it has become the common language in which most astronomical analysis is now written.","entryPath":"/astroinformatics/scientific-python-ecosystem"},{"id":"research_software:topcat","name":"TOPCAT","type":"research_software","domain":"science","description":"An interactive desktop tool for viewing, cross-matching, plotting, and manipulating large astronomical tables and catalogues, with deep support for Virtual Observatory table formats and services. TOPCAT is a workhorse for exploring catalogue data from surveys and archives.","entryPath":"/astronomy-software/topcat"}]}