astropy
БесплатноБез исполняемых скриптовНе проверенCore Python library for astronomy and astrophysics workflows that need Astropy APIs, including units/quantities, coordinates, FITS I/O, tables, time systems, WC
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Astropy
Overview
Astropy is the core Python package for astronomy, providing essential functionality for astronomical research and data analysis. Use astropy for coordinate transformations, unit and quantity calculations, FITS file operations, cosmological calculations, precise time handling, tabular data manipulation, and astronomical image processing.
When to Use This Skill
Use astropy when tasks involve:
- Converting between celestial coordinate systems (ICRS, Galactic, FK5, AltAz, etc.)
- Working with physical units and quantities (converting Jy to mJy, parsecs to km, etc.)
- Reading, writing, or manipulating FITS files (images or tables)
- Cosmological calculations (luminosity distance, lookback time, Hubble parameter)
- Precise time handling with different time scales (UTC, TAI, TT, TDB) and formats (JD, MJD, ISO)
- Table operations (reading catalogs, cross-matching, filtering, joining)
- WCS transformations between pixel and world coordinates
- Astronomical constants and calculations
Quick Start
import astropy.units as u
from astropy.coordinates import SkyCoord
from astropy.time import Time
from astropy.io import fits
from astropy.table import Table
from astropy.cosmology import Planck18
# Units and quantities
distance = 100 * u.pc
distance_km = distance.to(u.km)
# Coordinates
coord = SkyCoord(ra=10.5*u.degree, dec=41.2*u.degree, frame='icrs')
coord_galactic = coord.galactic
# Time
t = Time('2023-01-15 12:30:00')
jd = t.jd # Julian Date
# FITS files
data = fits.getdata('image.fits')
header = fits.getheader('image.fits')
# Tables
table = Table.read('catalog.fits')
# Cosmology
d_L = Planck18.luminosity_distance(z=1.0)
Core Capabilities
1. Units and Quantities (astropy.units)
Handle physical quantities with units, perform unit conversions, and ensure dimensional consistency in calculations.
Key operations:
- Create quantities by multiplying values with units
- Convert between units using
.to()method - Perform arithmetic with automatic unit handling
- Use equivalencies for domain-specific conversions (spectral, doppler, parallax)
- Work with logarithmic units (magnitudes, decibels)
See: references/units.md for comprehensive documentation, unit systems, equivalencies, performance optimization, and unit arithmetic.
2. Coordinate Systems (astropy.coordinates)
Represent celestial positions and transform between different coordinate frames.
Key operations:
- Create coordinates with
SkyCoordin any frame (ICRS, Galactic, FK5, AltAz, etc.) - Transform between coordinate systems
- Calculate angular separations and position angles
- Match coordinates to catalogs
- Include distance for 3D coordinate operations
- Handle proper motions and radial velocities
- Query named objects from online databases
See: references/coordinates.md for detailed coordinate frame descriptions, transformations, observer-dependent frames (AltAz), catalog matching, and performance tips.
3. Cosmological Calculations (astropy.cosmology)
Perform cosmological calculations using standard cosmological models.
Key operations:
- Use built-in cosmologies (Planck18, WMAP9, etc.)
- Create custom cosmological models
- Calculate distances (luminosity, comoving, angular diameter)
- Compute ages and lookback times
- Determine Hubble parameter at any redshift
- Calculate density parameters and volumes
- Perform inverse calculations (find z for given distance)
See: references/cosmology.md for available models, distance calculations, time calculations, density parameters, and neutrino effects.
4. FITS File Handling (astropy.io.fits)
Read, write, and manipulate FITS (Flexible Image Transport System) files.
Key operations:
- Open FITS files with context managers
- Access HDUs (Header Data Units) by index or name
- Read and modify headers (keywords, comments, history)
- Work with image data (NumPy arrays)
- Handle table data (binary and ASCII tables)
- Create new FITS files (single or multi-extension)
- Use memory mapping for large files
- Access remote FITS files (S3, HTTP)
See: references/fits.md for comprehensive file operations, header manipulation, image and table handling, multi-extension files, and performance considerations.
5. Table Operations (astropy.table)
Work with tabular data with support for units, metadata, and various file formats.
Key operations:
- Create tables from arrays, lists, or dictionaries
- Read/write tables in multiple formats (FITS, CSV, HDF5, VOTable)
- Access and modify columns and rows
- Sort, filter, and index tables
- Perform database-style operations (join, group, aggregate)
- Stack and concatenate tables
- Work with unit-aware columns (QTable)
- Handle missing data with masking
See: references/tables.md for table creation, I/O operations, data manipulation, sorting, filtering, joins, grouping, and performance tips.
6. Time Handling (astropy.time)
Precise time representation and conversion between time scales and formats.
Key operations:
- Create Time objects in various formats (ISO, JD, MJD, Unix, etc.)
- Convert between time scales (UTC, TAI, TT, TDB, etc.)
- Perform time arithmetic with TimeDelta
- Calculate sidereal time for observers
- Compute light travel time corrections (barycentric, heliocentric)
- Work with time arrays efficiently
- Handle masked (missing) times
See: references/time.md for time formats, time scales, conversions, arithmetic, observing features, and precision handling.
7. World Coordinate System (astropy.wcs)
Transform between pixel coordinates in images and world coordinates.
Key operations:
- Read WCS from FITS headers
- Convert pixel coordinates to world coordinates (and vice versa)
- Calculate image footprints
- Access WCS parameters (reference pixel, projection, scale)
- Create custom WCS objects
See: references/wcs_and_other_modules.md for WCS operations and transformations.
Additional Capabilities
The references/wcs_and_other_modules.md file also covers:
NDData and CCDData
Containers for n-dimensional datasets with metadata, uncertainty, masking, and WCS information.
Modeling
Framework for creating and fitting mathematical models to astronomical data.
Visualization
Tools for astronomical image display with appropriate stretching and scaling.
Constants
Physical and astronomical constants with proper units (speed of light, solar mass, Planck constant, etc.).
Convolution
Image processing kernels for smoothing and filtering.
Statistics
Robust statistical functions including sigma clipping and outlier rejection.
Installation
# Reproducible install against the current stable release
uv pip install "astropy==7.2.0"
# Recommended optional dependencies for plotting and common workflows
uv pip install "astropy[recommended]==7.2.0"
# Full optional dependency set for broad astronomy workflows
uv pip install "astropy[all]==7.2.0"
Astropy 7.2.0 requires Python 3.11+ and depends on NumPy, PyERFA, PyYAML, and packaging. Use an isolated virtual environment; do not install Astropy with elevated privileges.
Note that the [recommended] and [all] extras pull in transitive dependencies (matplotlib, scipy, etc.) at unpinned versions. For reproducible production environments, pin the full dependency tree with a lockfile (uv lock in a project, or uv pip compile for requirements files) and review the resolved versions before deploying.
Common Workflows
Converting Coordinates Between Systems
from astropy.coordinates import SkyCoord
import astropy.units as u
# Create coordinate
c = SkyCoord(ra='05h23m34.5s', dec='-69d45m22s', frame='icrs')
# Transform to galactic
c_gal = c.galactic
print(f"l={c_gal.l.deg}, b={c_gal.b.deg}")
# Transform to alt-az (requires time and location)
from astropy.time import Time
from astropy.coordinates import EarthLocation, AltAz
observing_time = Time('2023-06-15
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Что делает скилл astropy?
Core Python library for astronomy and astrophysics workflows that need Astropy APIs, including units/quantities, coordinates, FITS I/O, tables, time systems, WCS, and cosmology. Use when implementing or debugging astronomical data analysis code with Astropy.
Как установить скилл astropy?
Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.
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Нет, скилл состоит только из инструкций (SKILL.md), без исполняемых скриптов.
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