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Journals and Conferences
Alternative materials for plasmonic devices have garnered much recent interest. A promising candidate material is titanium nitride. Although there is a substantial body of work on the formation of this material, its use for plasmonic applications requires a more systematic and detailed optical analysis than has previously been carried out. This paper… (More)
TiN is a novel refractory plasmonic material which can sustain high temperatures and exhibits large optical nonlinearities. We present for the first time second harmonic spectroscopy of TiN nanoantenna arrays resonant at about 1000 nm.
Titanium nitride (TiN) is a novel refractory plasmonic material which can sustain high temperatures and exhibits large optical nonlinearities, potentially opening the door for high-power nonlinear plasmonic applications. We fabricate TiN nanoantenna arrays with plasmonic resonances tunable in the range of about 950-1050 nm by changing the antenna length. We… (More)