Welcome to DiadFits documentation!

Contents:

• Introduction and Citation
• Installation & Updating
  • Installation
  • Updating
• Importing Data and Metadata
  • Supported Spectral File Types
  • Supported Metadata File Types
• Python datastructures used in DiadFit
  • What is a function?
  • What are different datatypes?
• Change Log
  • March 17th, 2026 Penny Wieser - V.1.0.19
  • Jan 21st, 2026 Penny Wieser - V.1.0.16
  • Sept 4th, 2024 - Penny Wieser - V.1.0.3
  • Publication version Penny Wieser - V.1.0.1
  • Publication version Penny Wieser - V.1.0
  • June 3rd, 2024 - Penny Wieser - V.0.91
  • March 29th, 2024 - Penny Wieser - V.0.86
  • March 7th, 2024 - Penny Wieser - V.0.85
  • Feb 4th, 2024 - Penny Wieser - V.0.82
  • Dec 18th, 2023 - Penny Wieser - V.0.81
  • Nov 29th, 2023 - Penny Wieser - V.0.80
  • Oct 25th, 2023 - Penny Wieser - v.0.78
  • June 23rd, 2023 - Penny Wieser
  • March 28th, 2023 - Penny Wieser
  • March 22nd, 2023 - Penny Wieser

Worked Examples

• Fitting Fermi Diads
  • Example 1a - Gas Calibration Data
  • Example 1b - Fluid inclusions (if no standards are available in your lab)
  • Example 1bb - Fluid inclusions (With standards, e.g. something you analyse every day)
  • Example 1bb - Nasty backgrounds
  • Example 1c - HORIBA synthetic fluid inclusions
  • Example 1d- Newer HORIBA
  • Example 1e - Quick Peak fitting
  • Example 1f - Quantifying Peak assymmetry
• Quantifying melt water contents
  • Example 4a - Just Glasses
  • Example 4b, 4c, 4d - Unmixing olivine and melt inclusions
• Equation of state (EOS) calculations
  • Example 5a - Different EOS functions
  • Example 5b - Visualizing how CO$_2$ density relates to P and T
  • Example 5c - Calculating fluid inclusion entrapment pressures and depths in La Palma
  • Example 5d - Calculating fluid inclusion entrapment pressures and depths for different density profiles
  • Example 5e - Propagating uncertainties in fluid inclusion barometry
  • Example 5f - Calculations using CO$_2$-H$_2$O EOS
• CO2 in melt inclusion vapour bubbles
  • Example 8 - Propagating CO2 Uncertainties
• Modelling Fluid inclusion re-equilibration
  • Example 9a - Stretching during ascent
  • Example 9b - Stretching during quenching
  • Example 9c - Stretching during stalling
• Other Useful Functions
  • Example 10a - Crustal Density Profiles

Narrated YouTube Videos

• YouTube Tutorials
  • Why did we develop DiadFit
  • How to get files
  • WITEC Diad Fitting Workflow
  • CO2 EOS calculations
  • Fluid inclusion workflow
  • Propagating uncertainty for fluid inclusions from La Palma
  • CO2-H2O EOS calculations

Detailed Code Documentation:

• API Reference
  • Functions for reading in data files
  • Functions associated with fitting diads
  • Functions associated with fitting Ne lines
  • Functions associated with fitting Ar lines
  • Functions for different densimeters (to convert splitting to density)
  • Functions for propagating uncertainty
  • Functions for performing CO2-H2O EOS calculations
  • Functions for calculating CO2 in vapour bubbles
  • Functions for calculating molar gas proportions from Raman peak areas
  • Functions for converting pressure to depth using different crustal profiles
  • Functions for modelling fluid inclusion re-equilibration
  • Functions for fitting H2O peaks in Raman spectra
  • Functions for reading data from the P sensor
  • Functions for fitting gas cell data to calibrate a densimeter

Indices and tables

• Index

• Module Index

• Search Page