Add to ORKGElectron tunneling, Van der Waals interaction, quantized conductance, chemical bonding and Pauli repulsion occur as two objects approach each other. The ability to control the final few nanometers of this approach curve, often with picometer precision, resulted in the development of scanning-probe microscopies and breakjunction electronics. Nevertheless, the small device footprint makes it difficult for these matured quantum technologies to be integrated into macroscopic wavelength optical applications. We address this issue by extending subatomic distance controllability to the wafer-length and wafer-scale. High aspect ratio-nanotrenches of up to 2 cm-long are fabricated on a flexible substrate. While our as-fabricated structure can be tra...
The transport characteristics of nano—electronic devices are determined not only by the electronic s...
Metallic structures with nanogap features have proven highly effective as building blocks for plasmo...
Plasmonic transmission lines have great potential to serve as direct interconnects between nanoscale...
The ability to control the final few nanometers before two objects collide, often with picometer pre...
Zero-nanometer tunable gap technologies Dai-Sik Kim Centre for Angstrom Scale Electromagnetism and ...
The ability to control the gap width between two objects, often with picometer and nanometer precisi...
With recent advances in nanofabrication technology, various metallic gap structures with gap widths ...
We have developed a technology to reproducibly make gaps with distance control on the single-atom sc...
Gap plasmonic nanostructures are of great interest due to their ability to concentrate light into sm...
Gap plasmonic nanostructures are of great interest due to their ability to concentrate light into sm...
Gap plasmonic nanostructures are of great interest due to their ability to concentrate light into sm...
We have developed a technology to reproducibly make gaps with distance control on the single-atom sc...
Nanogap metallic structures is a useful platform for efficient manipulation of the light-matter inte...
We develop technologies that vary the planar gap widths in real time and on wafer scale, from subnan...
The transport characteristics of nano—electronic devices are determined not only by the electronic s...
The transport characteristics of nano—electronic devices are determined not only by the electronic s...
Metallic structures with nanogap features have proven highly effective as building blocks for plasmo...
Plasmonic transmission lines have great potential to serve as direct interconnects between nanoscale...
The ability to control the final few nanometers before two objects collide, often with picometer pre...
Zero-nanometer tunable gap technologies Dai-Sik Kim Centre for Angstrom Scale Electromagnetism and ...
The ability to control the gap width between two objects, often with picometer and nanometer precisi...
With recent advances in nanofabrication technology, various metallic gap structures with gap widths ...
We have developed a technology to reproducibly make gaps with distance control on the single-atom sc...
Gap plasmonic nanostructures are of great interest due to their ability to concentrate light into sm...
Gap plasmonic nanostructures are of great interest due to their ability to concentrate light into sm...
Gap plasmonic nanostructures are of great interest due to their ability to concentrate light into sm...
We have developed a technology to reproducibly make gaps with distance control on the single-atom sc...
Nanogap metallic structures is a useful platform for efficient manipulation of the light-matter inte...
We develop technologies that vary the planar gap widths in real time and on wafer scale, from subnan...
The transport characteristics of nano—electronic devices are determined not only by the electronic s...
The transport characteristics of nano—electronic devices are determined not only by the electronic s...
Metallic structures with nanogap features have proven highly effective as building blocks for plasmo...
Plasmonic transmission lines have great potential to serve as direct interconnects between nanoscale...