Rapid fabrication of spiral phase plate on fused silica by laser-induced microplasma

“…Moreover, the residual products of the pre-structuring on the glass surface (type III) facilitated deposition, leading to an even greater amount of deposited copper ( Figure 2 b). This effect can be explained not only by the surface topology modification [ 46 , 47 ], but also by the enhanced absorption of laser radiation by the residual species, which led to more efficient heating and to the reduction of copper ions in the eutectic solvent. This assumption lies in agreement with the considerable widening of the structure, despite the increase in scanning speed ( Figure 2 a,b), and confirms that the main driving force of the process is thermal reduction [ 25 ], in contrast with photoinitiated deposition, using photodegradable precursors [ 51 , 52 ].…”

“…), which makes fine tuning the processing conditions possible [ 42 , 43 , 44 , 45 ]. The features of the deposition process and the parameters affecting its efficiency have been studied; the importance of surface pre-activation of the acceptor substrate, with the laser-induced microplasma technique [ 46 , 47 ], has also been highlighted and analyzed. Furthermore, new promising areas of research have been outlined, including the formation of laser-induced periodic surface structures (LIPSSs).…”

Direct Laser Writing of Copper Micropatterns from Deep Eutectic Solvents Using Pulsed near-IR Radiation

“…Moreover, the residual products of the pre-structuring on the glass surface (type III) facilitated deposition, leading to an even greater amount of deposited copper ( Figure 2 b). This effect can be explained not only by the surface topology modification [ 46 , 47 ], but also by the enhanced absorption of laser radiation by the residual species, which led to more efficient heating and to the reduction of copper ions in the eutectic solvent. This assumption lies in agreement with the considerable widening of the structure, despite the increase in scanning speed ( Figure 2 a,b), and confirms that the main driving force of the process is thermal reduction [ 25 ], in contrast with photoinitiated deposition, using photodegradable precursors [ 51 , 52 ].…”

“…), which makes fine tuning the processing conditions possible [ 42 , 43 , 44 , 45 ]. The features of the deposition process and the parameters affecting its efficiency have been studied; the importance of surface pre-activation of the acceptor substrate, with the laser-induced microplasma technique [ 46 , 47 ], has also been highlighted and analyzed. Furthermore, new promising areas of research have been outlined, including the formation of laser-induced periodic surface structures (LIPSSs).…”

Direct Laser Writing of Copper Micropatterns from Deep Eutectic Solvents Using Pulsed near-IR Radiation

“…The impact of reduced phase resolution, defined as the phase increment along the spiral phase gradient of vortex generating element, has been studied before in the context of spiral phase plates -refractive vortex generating elements 23,24 . However, we incorporated the eccentricity to a similar analysis and evaluated the quality of the vortex beam under the impact of the reduced phase resolution.…”

Quantifying the quality of optical vortices by evaluating their intensity distributions

Multisector binary phase plates on fused silica for generation of optical vortex beams superposition: Fabrication, characterization, and applications