Controlling light at the nanoscale with plasmonic resonances


Type of Project: Theory

Location: Donostia

Ruben Esteban

Status: Closed

Light can be controlled by metallic structures in a similar manner as radio waves by a conventional antenna. To achieve this aim, the dimensions of these optical nanoantennas have to be comparable or smaller than the wavelength, going from a few hundred nanometers to even subnanometer features. From a physical perspective, their main difference with conventional antennas is the possibility to excite strong resonances of the free electrons of the metal that are called plasmon modes. Furthermore, when many plasmonic structures are combined new kind of artificial 'metamaterials' with previously unknown optical properties can be obtained.

Plasmonics have attracted much interest in the nanophotonics community due to the design of nanodevices that can confine light to extremely small volumes, modify the emission of single photon for quantum information or improve spectroscopic measurements of molecules for biology and health studies, among others. The task of the student during the internship will be to study the properties of such plasmonics structures using a combination of simulations and analytical methods