posted on 2012-09-12, 00:00authored byHeykel Aouani, Miguel Navarro-Cia, Mohsen Rahmani, Themistoklis
P. H. Sidiropoulos, Minghui Hong, Rupert F. Oulton, Stefan A. Maier
We report the experimental realization of efficient tunable
nanosources
of second harmonic light with individual multiresonant log-periodic
optical antennas. By designing the nanoantenna with a bandwidth of
several octaves, simultaneous enhancement of fundamental and harmonic
fields is observed over a broad range of frequencies, leading to a
high second harmonic conversion efficiency, together with an effective
second order susceptibility within the range of values provided by
widespread inorganic crystals. Moreover, the geometrical configuration
of the nanoantenna makes the generated second harmonic signal independent
from the polarization of the fundamental excitation. These results
open new possibilities for the development of efficient integrated
nonlinear nanodevices with high frequency tunability.