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Spatially controlled nano-structuring of silicon with femtosecond vortex pulses

M. G. Rahimian, Ashish Jain, Hugo Larocque, P. B. Corkum, Ebrahim Karimi, V. R. Bhardwaj

2020Scientific Reports31 citationsDOIOpen Access PDF

Abstract

Engineering material properties is key for development of smart materials and next generation nanodevices. This requires nanoscale spatial precision and control to fabricate structures/defects. Lithographic techniques are widely used for nanostructuring in which a geometric pattern on a mask is transferred to a resist by photons or charged particles and subsequently engraved on the substrate. However, direct mask-less fabrication has only been possible with electron and ion beams. That is because light has an inherent disadvantage; the diffraction limit makes it difficult to interact with matter on dimensions smaller than the wavelength of light. Here we demonstrate spatially controlled formation of nanocones on a silicon surface with a positional precision of 50 nm using femtosecond laser ablation comprising a superposition of optical vector vortex and Gaussian beams. Such control and precision opens new opportunities for nano-printing of materials using techniques such as laser-induced forward transfer and in general broadens the scope of laser processing of materials.

Topics & Concepts

FemtosecondMaterials scienceLaserSiliconOpticsFabricationLithographyOptoelectronicsSubstrate (aquarium)NanotechnologyNano-Superposition principleResistNanolithographyVortexPhysicsGeologyThermodynamicsPathologyQuantum mechanicsOceanographyLayer (electronics)Composite materialMedicineAlternative medicineLaser Material Processing TechniquesNonlinear Optical Materials StudiesNear-Field Optical Microscopy
Spatially controlled nano-structuring of silicon with femtosecond vortex pulses | Litcius