Controlling the Ultrafast Hot Electron Dynamics in Hybrid Plasmonic Nanostructures

Hayk Harutyunyan Physics, Emory University, Atlanta, Georgia, USA Alex Martinson Materials Science Division, Argonne National Lab, Argonne, Illinois, USA Alexander Govorov Physics and Astronomy, Ohio University, Athens, Ohio, USA Gary Wiederrecht Center For Nanoscale Materials, Argonne National Lab, Argonne, Illinois, USA

Plasmons hold promise for applications in photonic circuitry because of their ability to squeeze light into sub-wavelength dimensions and also for their ultrafast response times. To this end, it is important to fabricate plasmonic systems that can generate large optical signals at ultrafast timescales. This goal has been accomplished using coherent harmonic generation or wave mixing at metallic nanostructures where the femtosecond plasmonic response is attributed to plasmon dephasing. However, the multi-frequency nature of these optical effects makes their practical use challenging. Plasmonic devises based on Kerr-type nonlinear optical effects, on the other hand, can operate at a single, fundamental frequency. However, the ultrafast response of gold nanostructures so far has been measured to be in the picosecond timescales attributed to electron – phonon scattering. By de-signing and fabricating metal-oxide hybrid nanosystems with ultra-high field enhancements we were able to demonstrate much faster, femtosecond dynamics of the optical response. Moreover, our experiments show that the nonlinear optical response can be further tuned in both time and spectral domains by tuning the material composition of our hybrid nanomaterials.

hayk.harutyunyan@emory.edu









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