С. М. Першин scite author profile

Single vs. multimode laser beams have been compared for laser ablation on steel samples. Laser plasma properties and analytical capabilities (precision, limit of detection) were used as key parameters for comparison. Peak fluence at focal spot has been observed to be higher for Gaussian beam despite ~14-fold lower pulse energy. A comparison of Gaussian and multimode beams with equal energy was carried out in order to estimate influence of beam profile only. Single mode lasing (Gaussian beam) results in better reproducibility of analytical signals compared to multimode lasing while laser energy reproducibility was the same for both cases. Precision improvements were attributed to more stable laser ablation due to better reproducibility of beam profile fluence at laser spot. Plasma temperature and electron density were higher for Gaussian laser beam. Calibration curves were obtained for four elements under study (Cr, Mn, Si, Cu). Two sampling (drilling and scanning procedures) and two optical detection schemes (side-view and optical fiber) were used to compare Gaussian and multimode beam profile influence on analytical capabilities of LIBS. We have found that multimode beam sampling was strongly influenced by surface effects (impurities, defects etc.). For all sampling and detection schemes, better precision was obtained if Gaussian beam was used for sampling. In case of single-spot sampling better limits of detection were achieved for multimode beam. If laser sources have same wavelength and equal energy than quality of laser beam became a crucial parameter which determined plasma properties and analytical capabilities of LIBS.

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Four-photon laser spectroscopy of solids in 0–0.15 THz

Бункин

Першин

Nurmatov

2005

Laser Phys. Lett.

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Four-photon coherent spectroscopy of fused quartz, crown glass K8 and NaCl crystal in 0-5 cm −1 have been done. It was established that the spectra contain the Brillouin resonances on longitudinal and transversal hypersound, as well as distinct resonances at ∼1.6 cm −1 , which can be attributed to hydroxyl (OH) rotations. The fine structure of Rayleigh wing scattering in fused quartz has been observed for the first time. The detected lines 0.18 cm −1 and 0.37 cm −1 (5.4 and 11.1 GHz, respectively) are attributed to spheroidal modes ν 22 and ν 32 of SiO 2 spheres with the diameter ∼760 nm.Intensity, a.u.

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Quantitative analysis of bronze samples by laser-induced breakdown spectroscopy (LIBS): A new approach, model, and experiment

2006

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