Rajpal, S.
, Ahmed, Z.
and Berry, T.
(2025),
Evaluating the impact of probabilistic and data-driven inference models on uncertainties of fiber-coupled NV-diamond thermometers, Optics Express, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=958356
(Accessed May 10, 2025)
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Evaluating the impact of probabilistic and data-driven inference models on uncertainties of fiber-coupled NV-diamond thermometers
Published
Author(s)
Shraddha Rajpal, , Tyrus Berry
Abstract
We conduct cw-Optically Detected Magnetic Resonance (ODMR) measurements using a fiber-coupled NV sensor to infer temperature. Our approach leverages a probabilistic feedforward inference model designed to maximize the likelihood of observed ODMR spectra through automatic differentiation. This model effectively utilizes the temperature dependence of spin Hamiltonian parameters to infer temperature from spectral features in the ODMR data. We achieve an accuracy of $\pm1 ^\circ$C across a temperature range of 243K to 323K. To benchmark our probabilistic model, we compare it with a non-parametric peak-finding technique and data-driven methodologies such as Principal Component Regression (PCR) and a 1D Convolutional Neural Network (CNN). We find that, within the temperature range of their training, data driven methods achieve a comparable accuracy of $\pm 1 ^\circ$C without incorporating expert-level understanding of the spectroscopic-temperature relationship. However, our results show that the probabilistic model outperforms both PCR and CNN when tested outside the training temperature range, indicating robustness and generalizability beyond the training set. In contrast, data-driven methods like PCR and CNN demonstrate significant challenges when tasked with extrapolating outside their training data range.Citation
Optics Express
Pub Type
Journals
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Keywords
NV diamond, applied machine learning, uncertainty, temperature, deep learning
Citation
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Created May 5, 2025, Updated May 8, 2025