Add to ORKGLaser direct-write patterning methods are traditionally limited by the diffraction limit to size scales several hundreds of nanometers at the minimum. In this work, we demonstrate a new method of laser based patterning that overcomes these limitations by taking advantage of near-field enhancement at the surface of dielectric microspheres. Polystyrene microspheres are trapped in CW Bessel beam laser traps above a polyimide surface. A second, pulsed ultraviolet laser gets focused through the bead, and produces nanometer scale features on the substrate. The full width, half maximum of the features generated by this technique is measured and analyzed along with Finite Difference Time Domain simulations to predict the effects of bead size and pu...
The use of nano/microspheres or beads for optical nanolithography is a consolidated technique for ac...
Driven by the exponential growth in the field of nanotechnology in the last few decades, there has b...
We report on a method that allows the nanostructuring of surfaces with intense laser pulses. For thi...
A new approach for fabricating a range of patterns using femtosecond optical trap-assisted nanopatte...
Laser surface micro/nanopatterning by particle lens arrays is a well-known technique. Enhanced optic...
Symposium on Laser Interaction with Advaned Materials: Fundamentals and Applications, Lille, FRANCE,...
Abstract Optical near-field techniques allow one to overcome diffraction by positioning an optical e...
AbstractThe need to generate sub 100nm features is of interest for a variety of applications includi...
In this letter, we show the combination of multiphoton polymerization and optical trap assisted nano...
Abstract The need to generate sub 100 nm features is of interest for a variety of applications inclu...
17th International School on Quantum Electronics - Laser Physics and Applications (ISQE), Nessebar, ...
When a drop of liquid falls onto a screen, e.g. a cell phone, the pixels lying underneath appear mag...
In this paper, we report a system that uses a microsphere to induce a photonic nanojet to directly w...
Laser beam, electron beam & focused ion beam are attracting much research interests in functiona...
Under UV illumination, polymer films can undergo chain scission and contract. Using this effect, tig...
The use of nano/microspheres or beads for optical nanolithography is a consolidated technique for ac...
Driven by the exponential growth in the field of nanotechnology in the last few decades, there has b...
We report on a method that allows the nanostructuring of surfaces with intense laser pulses. For thi...
A new approach for fabricating a range of patterns using femtosecond optical trap-assisted nanopatte...
Laser surface micro/nanopatterning by particle lens arrays is a well-known technique. Enhanced optic...
Symposium on Laser Interaction with Advaned Materials: Fundamentals and Applications, Lille, FRANCE,...
Abstract Optical near-field techniques allow one to overcome diffraction by positioning an optical e...
AbstractThe need to generate sub 100nm features is of interest for a variety of applications includi...
In this letter, we show the combination of multiphoton polymerization and optical trap assisted nano...
Abstract The need to generate sub 100 nm features is of interest for a variety of applications inclu...
17th International School on Quantum Electronics - Laser Physics and Applications (ISQE), Nessebar, ...
When a drop of liquid falls onto a screen, e.g. a cell phone, the pixels lying underneath appear mag...
In this paper, we report a system that uses a microsphere to induce a photonic nanojet to directly w...
Laser beam, electron beam & focused ion beam are attracting much research interests in functiona...
Under UV illumination, polymer films can undergo chain scission and contract. Using this effect, tig...
The use of nano/microspheres or beads for optical nanolithography is a consolidated technique for ac...
Driven by the exponential growth in the field of nanotechnology in the last few decades, there has b...
We report on a method that allows the nanostructuring of surfaces with intense laser pulses. For thi...