Add to ORKGScientific and commercial applications of optical nanofcousing devices have attracted a lot of research efforts in recent years. Sub-diffraction-limited microscopy, nano-photolithography, tipbased nanofabrication, and heat-assisted magnetic recording (HAMR) for achieving data density beyond 1 Tbits/in^2 are a few examples. To realize these applications, nanofocusing devices must be able to confine light into sub-50-nm space (sub-20nm for HAMR applications) at high efficiency. Previously, researchers have achieved nanofocusing using scanning-tunnelingmicroscope (STM) tips, tapered plasmonic pins, enhanced transmission apertures, and tapered fiber probes [1-4]
Abstract: Through a process of efficient dielectric to metallic waveguide mode conversion, we calcul...
We demonstrate and analyze a highly efficient on-chip 3D metal-insulator-metal (MIM) nanofocusing s...
In this talk we demonstrate configurations and devices that allow plasmonic assisted guiding and con...
Scientific and commercial applications of optical nanofcousing devices have attracted a lot of resea...
We propose and analyze a new type of mechanically robust optical nanofocusing probe with minimized e...
Nanofocusing, the term coined by Mark Stockman, has been observed in many different tapered waveguid...
The concentration of light to deep-subwavelength dimensions plays a key role in nanophotonics and ha...
ABSTRACT: The efficiency of plasmonic nanostructures as optical antennas to concentrate optical fiel...
We have demonstrated experimentally a highly efficient on-chip three-dimensional (3D) linearly taper...
In the past decade, glass fiber tapers with micron or sub-micron diameter have attracted much attent...
The capability to focus electromagnetic energy at the nanoscale plays an important role in nanoscine...
In the past century, electric current dominated the field of information generation, transportation,...
Strongly localised plasmons in metallic nano-structures offer exciting characteristics for guiding a...
Driven by the exponential growth in the field of nanotechnology in the last few decades, there has b...
We have demonstrated experimentally a highly efficient on-chip three-dimensional (3D) linearly taper...
Abstract: Through a process of efficient dielectric to metallic waveguide mode conversion, we calcul...
We demonstrate and analyze a highly efficient on-chip 3D metal-insulator-metal (MIM) nanofocusing s...
In this talk we demonstrate configurations and devices that allow plasmonic assisted guiding and con...
Scientific and commercial applications of optical nanofcousing devices have attracted a lot of resea...
We propose and analyze a new type of mechanically robust optical nanofocusing probe with minimized e...
Nanofocusing, the term coined by Mark Stockman, has been observed in many different tapered waveguid...
The concentration of light to deep-subwavelength dimensions plays a key role in nanophotonics and ha...
ABSTRACT: The efficiency of plasmonic nanostructures as optical antennas to concentrate optical fiel...
We have demonstrated experimentally a highly efficient on-chip three-dimensional (3D) linearly taper...
In the past decade, glass fiber tapers with micron or sub-micron diameter have attracted much attent...
The capability to focus electromagnetic energy at the nanoscale plays an important role in nanoscine...
In the past century, electric current dominated the field of information generation, transportation,...
Strongly localised plasmons in metallic nano-structures offer exciting characteristics for guiding a...
Driven by the exponential growth in the field of nanotechnology in the last few decades, there has b...
We have demonstrated experimentally a highly efficient on-chip three-dimensional (3D) linearly taper...
Abstract: Through a process of efficient dielectric to metallic waveguide mode conversion, we calcul...
We demonstrate and analyze a highly efficient on-chip 3D metal-insulator-metal (MIM) nanofocusing s...
In this talk we demonstrate configurations and devices that allow plasmonic assisted guiding and con...