The role of spatial confinement for improvement of laser-induced Mg plasma parameters and growth of surface features

The role of spatial confinement for improvement of laser-induced Mg plasma parameters and growth of surface features is investigated by introducing a metallic blocker. Nd: YAG laser at various fluences ranging from 7 to 28 J cm −2 was employed as an irradiation source. All measurements were performe...

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Veröffentlicht in:Applied physics. A, Materials science & processing Materials science & processing, 2017-08, Vol.123 (8), p.1-17, Article 505
Hauptverfasser: Hayat, Asma, Bashir, Shazia, Rafique, Muhammad Shahid, Ahmad, Riaz, Akram, Mahreen, Mahmood, Khaliq, Zaheer, Ali
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Sprache:eng
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Zusammenfassung:The role of spatial confinement for improvement of laser-induced Mg plasma parameters and growth of surface features is investigated by introducing a metallic blocker. Nd: YAG laser at various fluences ranging from 7 to 28 J cm −2 was employed as an irradiation source. All measurements were performed in the presence of Ar under different pressures. Confinement effects offered by metallic blocker are investigated by placing the blocker at different distances of 6, 8 and 10 mm from the target surface. It is revealed from laser-induced breakdown spectroscopy analysis that both plasma parameters, i.e., excitation temperature and electron number density initially increase with increasing laser fluence due to enhancement in energy deposition. With further increase in laser fluence, a decreasing trend followed by saturation is observed which is attributable to shielding effect and self-regulating regime. It is also observed that spatial confinement offered by metallic blocker is responsible for the significant enhancement of both electron temperature and electron number density of Mg plasma. This is true for all laser fluences and pressures of Ar. Maximum values of electron temperature and electron number density without blocker are 8335 K and 2.4 × 10 16 cm −3 , respectively, whereas these values are enhanced to 12,200 K and 4 × 10 16 cm −3 in the presence of the blocker. The physical mechanisms responsible for the enhancement of Mg plasma parameters are plasma compression, confinement and pronounced collisional excitations due to reflection of shock waves. Scanning electron microscope analysis was performed to explore the surface morphology of laser-ablated Mg. It reveals the formation of cones, cavities and ripples. These features become more distinct and well defined in the presence of the blocker due to plasma confinement. The optimum combination of blocker distance, fluence and Ar pressure can identify the suitable conditions for defining the role of plasma parameters for surface structuring.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-017-1102-3