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CO2 Isotopologue Quantification Using Direct Frequency Comb Spectroscopy and Machine Learning.

Madeleine Cochrane1,2, Sarah K Scholten2,3, Chris Perrella2,3,4

  • 1Australian Institute for Machine Learning (AIML), School of Computer and Mathematical Sciences, University of Adelaide, Adelaide, South Australia 5005, Australia.

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Summary
This summary is machine-generated.

Machine learning accurately estimates gas concentrations, even with overlapping spectral features. A transformer model with data augmentation significantly improved accuracy for carbon dioxide isotopologues compared to traditional methods.

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Area of Science:

  • Spectroscopy
  • Machine Learning
  • Environmental Monitoring

Background:

  • Direct frequency comb spectroscopy offers accurate, selective, and broadband gas analysis.
  • Estimating concentrations in complex gas mixtures with overlapping absorption features is challenging.
  • Traditional curve fitting methods struggle with complex mixtures.

Purpose of the Study:

  • To apply machine learning for precise estimation of carbon dioxide isotopologue concentrations.
  • To compare different machine learning models and data augmentation techniques.
  • To overcome limitations of traditional methods in spectral analysis.

Main Methods:

  • Utilized machine learning models (including transformers) to analyze spectral data.
  • Investigated analysis of both transmission spectra and virtually imaged phased array spectrometer outputs.
  • Employed data augmentation techniques, specifically shifted spectra, to enhance model generalization.

Main Results:

  • The transformer method with shifted spectra data augmentation achieved high accuracy.
  • Achieved mean absolute errors of 14.7 ppm for 12C16O2 and 0.3 ppm for 13C16O2.
  • Outperformed traditional curve fitting by 3 orders of magnitude.

Conclusions:

  • Machine learning, particularly the transformer model with data augmentation, offers a superior approach for spectral analysis.
  • This method accurately quantifies molecular concentrations in complex gas mixtures.
  • Advanced spectral analysis holds promise for healthcare, environmental monitoring, and food quality.