Issue 44, 2022

Effect of non-resonant background on the extraction of Raman signals from CARS spectra using deep neural networks

Abstract

We report the retrieval of the Raman signal from coherent anti-Stokes Raman scattering (CARS) spectra using a convolutional neural network (CNN) model. Three different types of non-resonant backgrounds (NRBs) were explored to simulate the CARS spectra viz (1) product of two sigmoids following the original SpecNet model, (2) Single Sigmoid, and (3) fourth-order polynomial function. Later, 50 000 CARS spectra were separately synthesized using each NRB type to train the CNN model and, after training, we tested its performance on 300 simulated test spectra. The results have shown that imaginary part extraction capability is superior for the model trained with Polynomial NRB, and the extracted line shapes are in good agreement with the ground truth. Moreover, correlation analysis was carried out to compare the retrieved Raman signals to real ones, and a higher correlation coefficient was obtained for the model trained with the Polynomial NRB (on average, ∼0.95 for 300 test spectra), whereas it was ∼0.89 for the other NRBs. Finally, the predictive capability is evaluated on three complex experimental CARS spectra (DMPC, ADP, and yeast), where the Polynomial NRB model performance is found to stand out from the rest. This approach has a strong potential to simplify the analysis of complex CARS spectroscopy and can be helpful in real-time microscopy imaging applications.

Graphical abstract: Effect of non-resonant background on the extraction of Raman signals from CARS spectra using deep neural networks

Supplementary files

Article information

Article type
Paper
Submitted
28 Jun 2022
Accepted
29 Sep 2022
First published
10 Oct 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 28755-28766

Effect of non-resonant background on the extraction of Raman signals from CARS spectra using deep neural networks

R. Junjuri, A. Saghi, L. Lensu and E. M. Vartiainen, RSC Adv., 2022, 12, 28755 DOI: 10.1039/D2RA03983D

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