DL
  • Home
  • Publications
  • Experience
  • Projects
  • Projects
  • Projects
    • Pandas
    • PyTorch
    • scikit-learn
  • Experience
  • Blog
    • ๐ŸŽ‰ Easily create your own simple yet highly customizable blog
    • ๐Ÿง  Sharpen your thinking with a second brain
    • ๐Ÿ“ˆ Communicate your results effectively with the best data visualizations
    • ๐Ÿ‘ฉ๐Ÿผโ€๐Ÿซ Teach academic courses
    • โœ… Manage your projects
  • Publications
    • Developing Oxford's Enceladus Thermal Mapper (ETM)
    • TEMPEST: A Modular Thermophysical Model for Airless Bodies with Support for Surface Roughness and Non-Periodic Heating
    • Predicting Surface Temperatures on Airless Bodies: An Open-Source Python Tool
    • Optimising Thermal Mapping Instrument Filters to Unveil Enceladus' Subsurface Secrets
    • Detection and Tracking of Space Debris in Cislunar Environment - A Phase 0 Mission Design
    • Tailoring Infrared Filters for Global Mapping of Enceladus' Surface Temperatures
    • Water sports board with internal skeleton structure
    • Mineral dust increases the habitability of terrestrial planets but confounds biomarker detection
  • Recent & Upcoming Talks
    • Example Talk

Predicting Surface Temperatures on Airless Bodies: An Open-Source Python Tool

Jul 1, 2024ยท
Duncan Lyster
,
Carly Howett
,
Joseph Penn
ยท 0 min read
Cite DOI URL
Type
Journal article
Publication
Copernicus GmbH
Last updated on Jul 31, 2025
← TEMPEST: A Modular Thermophysical Model for Airless Bodies with Support for Surface Roughness and Non-Periodic Heating Jul 1, 2025
Optimising Thermal Mapping Instrument Filters to Unveil Enceladus' Subsurface Secrets Mar 1, 2024 →

ยฉ 2025 Me. This work is licensed under CC BY NC ND 4.0

Published with Hugo Blox Builder โ€” the free, open source website builder that empowers creators.