Journal article

Underlying Physical Process for the Unusual Spectral Quality of Double Pulse Laser Spectroscopy in He Gas

Marincan Pardede Eric Jobiliong Kurnia Lahna Rinaldi Idroes HERY SUYANTO Alion Mangasi Marpaung Syahrun Nur Abdulmadjid Nasrullah Idris Muliadi Ramli Rinda Hedwig Zener Sukra Lie Tjung Jie Lie Indra Karnadi Koo Hendrik Kurniawan May On Tjia

Volume : 91 Nomor : 12 Published : 2019, May

Analytical Chemistry

Abstrak

ABSTRACT: This study is aimed at elucidating the physical processes responsible for the excellent spectral qualities in terms of full width at half-maximum (fwhm) and signal-tonoise (S/N) ratio shown in a special double pulse laserinduced spectroscopy. Apart from the use of atmospheric He ambient gas, the achievement is due to the ?rst laser for generating He gas plasma and the subsequent use of the second laser pulse for target ablation, in opposite order of the two-laser operations in conventional double pulse LIBS. This setup allows adjustments of the many experimental parameters to yield the optimal condition resulting in 0.03 nm fwhm and around 1000× S/N ratio of Cu I 521.8 nm and far surpasses the spectral qualities obtained by other techniques. This is obtained by allowing the crucial separation of the target plasma from the He gas plasma and thereby enabling the He-assisted excitation (HAE) to play its full and unique role of nonthermal excitation, taking advantage of metastable excited He atoms in the He plasma and the Penning-like energy transfer process. This excellent performance is further veri?ed by its successful application analysis of Cr in low alloy steel samples, with the presence of smooth linear calibration lines, signifying the absence of the self-absorption e?ect well-known in ordinary LIBS.