IST Lunch Bunch
The development of techniques for confining photons efficiently on the deep sub-wavelength spatial scale will revolutionize scientific research and engineering practices. Nanofocusing processes are essential for maximizing the performance of a new class of nanoscale optical/photonic devices as well as sub-diffraction-resolution imaging modules for medical and fundamental scientific research. However, the efficient coupling of light into extremely small nanofocusing devices has posed a major challenge, especially in on-chip nanophotonics, due to the need to overcome various loss mechanisms as well as the nanofabrication challenges.
In this presentation, I will discuss the achievement of highly efficient nanofocusing in an Au-SiO2-Au gap plasmon waveguide using a carefully engineered 3D taper. The dimensions of the SiO2 layer, perpendicular to the direction of wave propagation, tapered linearly below 100 nm. Our simulations suggested that the 3D linear-tapering approach could focus 830 nm light into a 2-by-5 nm2 area with ≤3 dB loss and an intensity enhancement of 3.0 × 104. In a two-photon luminescence measurement, our device achieved an intensity enhancement of 400 within a 14-by-80 nm2 area and transmittance of 74%.
Contact: Sydney Garstang at 626-395-4555 email@example.com