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Laser Ablation Saturated Absorption Spectroscopy (LA-SAS) for In Situ Detection of Neodymium Isotopes

Authors
Choi, Sung-UkJo, YongheumYun, Jong-Il
Issue Date
Jun-2024
Publisher
American Chemical Society
Citation
Analytical Chemistry, v.96, no.25, pp 10134 - 10139
Pages
6
Indexed
SCIE
SCOPUS
Journal Title
Analytical Chemistry
Volume
96
Number
25
Start Page
10134
End Page
10139
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209725
DOI
10.1021/acs.analchem.4c01332
ISSN
0003-2700
1520-6882
Abstract
This study introduces a novel optical system integrating laser ablation with saturated absorption spectroscopy (LA-SAS) for the detection of neodymium isotopes, crucial for the characterization process in nuclear forensics. Conventional methods for isotope analysis have encountered challenges, such as the inability to perform on-site detection or difficulty in distinguishing minor isotope differences. The LA-SAS system overcomes these limitations by combining pulsed laser for ablation and counter-propagated diode laser for saturated absorption, enabling preparation-free detection with enhanced spectral resolution. The analytical capability was demonstrated through the successful detection of seven neodymium isotopes (Nd-142, Nd-143, Nd-144, Nd-145, Nd-146, Nd-148, and Nd-150) with a line width narrowed to 0.1 pm, significantly improving upon the resolution limit of conventional LA-based methods. In addition, quantitative analysis of isotope abundance was facilitated by evaluating the signals from saturated absorption spectra. Special attention was given to the hyperfine structure of odd isotopes, which was resolved by multiple fitting in spectra, thereby refining the accuracy of isotope quantification up to an average bias of 0.45%. The established LA-SAS system offers on-site detection capability based on LA, and also the high resolution from SAS, making it a promising method for in situ nuclear forensics. Consequently, the study enhances the academic understanding of neodymium isotopes and underscores the potential of LA-SAS in fields requiring detailed isotopic information.
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