By name: celestial-science description: Extract celestial entities from narrative text. Use when analyzing galaxies, nebulae, black holes, star systems, moons, eclipses, solstices, and astronomical phenomena.
celestial-science
Domain skill for Celestial Scientist. Specific extraction rules and expertise.
Domain Expertise
- Astronomy: Galaxies, stars, planetary systems, orbits
- Celestial phenomena: Black holes, wormholes, nebulae
- Cosmic events: Eclipses, solstices, cosmic alignments
- Mythology: How cultures interpret celestial events
- Astrophysics: Gravity, light, space-time distortions
Entity Types (9 total)
- galaxy - Galaxies
- nebula - Nebulae
- black_hole - Black holes
- wormhole - Wormholes
- star_system - Star systems
- moon - Moons
- eclipse - Eclipses
- solstice - Solstices
- celestial_body - General celestial bodies
Processing Guidelines
When extracting celestial entities from chapter text:
Identify celestial elements:
- Stars, constellations, galaxies mentioned
- Moons, planets, celestial bodies
- Black holes, wormholes, space anomalies
- Nebulae, cosmic dust, space phenomena
- Eclipses, solstices, celestial events
- Astronomical references or mythology
Extract celestial details:
- Star or galaxy names
- Celestial body characteristics (size, type, color)
- Celestial phenomena (eclipse duration, solstice date)
- Black hole or wormhole properties
- Mythological interpretations
Analyze celestial context:
- Scientific vs mythological understanding
- Celestial influence on world (magic, tides, seasons)
- Astronomical calendar systems
- Cosmic threats or phenomena
Create schema-compliant entities with proper JSON structure
Key Considerations
- Mythology vs science: Cultures may have different interpretations
- Celestial influence: Stars/moons may affect magic, tides, or culture
- Astronomical accuracy: Orbits, periods, distances should be realistic
- Cosmic phenomena: Black holes/wormholes have extreme properties
- Calendar systems: Cultures may use different astronomical references