@article{10, keywords = {LIBS for Surface Nano-Patterning Characterization}, author = {Asadullah Dawood and Muhammad Khan and Shazia Bashir and Ambreen Ayub and Asma Hayat and Joseph Sanderson and Naveed Chishti}, title = {Examining the role of magnetic fields in plasma behavior and surface evolution of a Mg alloy with varied irradiances in a femtosecond laser treatment}, abstract = {
This paper reports the effect of a magnetic field on plasma parameters and surface structuring of the Mg alloy after laser irradiation. Femtosecond pulses of a Ti:sapphire laser system (800 nm, 35 fs, 1 KHz) are employed as the source of irradiation at various irradiances ranging from 0.011PW/cm20.011PW/cm2 to 0.117PW/cm20.117PW/cm2 to generate ablated Mg-alloy plasma. A transvers magnetic field (TMF) of strength 1.1 Tesla is employed to confine laser generated Mg plasma. All the measurements are performed with and without TMF. The two plasma parameters, i.e., excitation temperature (TexcTexc) and electron number density (ππne) of Mg plasma, have been evaluated by laser-induced breakdown spectroscopy (LIBS) analysis. It is observed that the values of TexcTexc and ππne of laser produced plasma (LPP) of the Mg alloy are higher in the presence of a magnetic field as compared to the field free case. Both show initially an increasing trend with increasing laser irradiance and after attaining their respective maxima a decreasing trend is observed with the further increase of irradiance. The magnetic confinement validity is confirmed by analytically evaluating thermal beta (π½π‘Ξ²t), directional beta (π½πΞ²d), confinement radius (RπRb), and diffusion time (tπtd) for LPP of the Mg alloy. To correlate the LPP parameters of the Mg alloy with surface modifications a field emission scanning electron microscope (FE-SEM) analysis is performed. It was revealed that structures like laser-induced periodic surface structures (LIPSSs), agglomerates, islands, large sized bumps, along with channels and multiple ablative layers are observed. Distinct and well-defined surface structuring is observed in the presence of TMF as compared to the field free case. It is concluded that by applying an external magnetic field during laser irradiation, controlled material surface structuring is possible for fabrication of nanogratings and field emitters where spatial uniformity is critically important.
}, year = {2024}, journal = {Applied Optics}, volume = {63}, chapter = {3585-3599}, month = {2024/5/1}, url = {https://opg.optica.org/ao/fulltext.cfm?uri=ao-63-13-3585&id=549325}, doi = {10.1364/AO.523804}, }