Coherent control of plasmonic nanoantennas using optical eigenmodes

Sebastian Kosmeier, Anna Chiara De Luca, Svetlana Zolotovskaya, Andrea Di Falco, Kishan Dholakia, Michael Mazilu

Research output: Contribution to journalArticlepeer-review

23 Citations (Scopus)


The last decade has seen subwavelength focusing of the electromagnetic field in the proximity of nanoplasmonic structures with various designs. However, a shared issue is the spatial confinement of the field, which is mostly inflexible and limited to fixed locations determined by the geometry of the nanostructures, which hampers many applications. Here, we coherently address numerically and experimentally single and multiple plasmonic nanostructures chosen from a given array, resorting to the principle of optical eigenmodes. By decomposing the light field into optical eigenmodes, specifically tailored to the nanostructure, we create a subwavelength, selective and dynamic control of the incident light. The coherent control of plasmonic nanoantennas using this approach shows an almost zero crosstalk. This approach is applicable even in the presence of large transmission aberrations, such as present in holographic diffusers and multimode fibres. The method presents a paradigm shift for the addressing of plasmonic nanostructures by light.

Original languageEnglish
Article number1808
JournalScientific reports
Publication statusPublished - 2013

Bibliographical note

Funding Information:
Physical Sciences Research Council for funding (EP/J01771X/1 and EP/F040644/1), ACDL is supported by an AIRC Start-up Grant 11454, ADF is supported by an EPSRC Career Acceleration Fellowship (EP/I004602/1) and KD is a Royal Society-Wolfson Merit Award Holder. Caroline Thomson is acknowledged for setting up the Ti:Sapphire laser.

All Science Journal Classification (ASJC) codes

  • General


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