Multi-Spectral Frequency Selective Mid-Infrared Microbolometers

Abstract

Frequency selective detection of low energy photons is a scientific challenge using natural materials. A hypothetical surface which functions like a light funnel with very low thermal mass in order to enhance photon collection and suppress background thermal noise is the ideal solution to address both low temperature and frequency selective detection limitations of present detection systems. Here, we present a cavity-coupled quasi-three dimensional plasmonic crystal which induces impedance matching to the free space giving rise to extraordinary transmission through the sub-wavelength aperture array like a “light funnel” in coupling low energy incident photons resulting in frequency selective perfect (~100%) absorption of the incident radiation and zero back reflection. The peak wavelength of absorption of the incident light is almost independent of the angle of incidence and remains within 20% of its maximum (100%) up to θi ≤ 45. This perfect absorption results from the incident light-driven localized edge “micro-plasma” currents on the lossy metallic surfaces. The wide-angle light funneling is validated with experimental measurements. Further, a super-lattice based electronic biasing circuit converts the absorbed narrow linewidth (Δλ / λ0 < 0.075) photon energy inside the sub-wavelength thick film (< λ/100) to voltage output with high signal to noise ratio close to the theoretical limit. Such artificial plasmonic surfaces enable flexible scaling of light funneling response to any wavelength range by simple dimensional changes paving the path towards room temperature frequency selective low energy photon detection.

Publication Date

12-10-2018

Publication Title

Optics Express

Volume

26

Issue

25

Number of Pages

32931-32940

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1364/OE.26.032931

Socpus ID

85058141470 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/85058141470

This document is currently not available here.

Share

COinS