Abstract

Infrared plasmonic filters, consisting of subwavelength holearrays etched into metal films, exhibit characteristics that aretypically associated with the formation of surface plasmonpolaritons, namely enhanced transmission and wavelengthfiltering of the incident light. In this article, the properties thatdictate the plasmonic response of a material from the optical tothe infrared regime are investigated, followed by the design,simulation, fabrication and characterisation of an infraredplasmonic filter set. Infrared plasmonic filters have also beenintegrated with optical plasmonic filters and a terahertzmetamaterial to create a new hybrid multi-spectral materialthat can filter blue, green, red, near infrared, short waveinfrared and two mid infrared wavelengths whilst simulta-neously absorbing a single terahertz frequency. The multi-spectral material could be integrated with appropriate imagesensors to create a multi-spectral camera capable of operatingat optical, infrared and terahertz wavebands simultaneously.