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Tunable mid-wave infrared Fabry-Perot bandpass filters using phase-change GeSbTe

Calum Williams, Nina Hong, Matthew Julian, Stephen Borg, Hyun Jung Kim

2020Optics Express75 citationsDOIOpen Access PDF

Abstract

We demonstrate spectrally-tunable Fabry-Perot bandpass filters operating across the MWIR by utilizing the phase-change material GeSbTe (GST) as a tunable cavity medium between two (Ge:Si) distributed Bragg reflectors. The induced refractive index modulation of GST increases the cavity’s optical path length, red-shifting the passband. Our filters have spectral-tunability of ∼300 nm, transmission efficiencies of 60-75% and narrowband FWHMs of 50-65 nm (Q-factor ∼70-90). We further show multispectral thermal imaging and gas sensing. By matching the filter’s initial passband to a CO 2 vibrational-absorption mode (∼4.25 µm), tunable atmospheric CO 2 sensing and dynamic plume visualization of added CO 2 is realized.

Topics & Concepts

Materials scienceBand-pass filterOpticsNarrowbandPassbandOptoelectronicsRefractive indexOptical filterModulation (music)Transmission (telecommunications)Multispectral imageInfraredOptical pathFilter (signal processing)Fiber Bragg gratingPhase modulationBroadbandHigh-refractive-index polymerThermalCoupled mode theoryFrequency modulationDistributed Bragg reflectorAmplitude modulationThermal stabilityPhase-change materials and chalcogenidesPhotonic Crystal and Fiber OpticsThermography and Photoacoustic Techniques
Tunable mid-wave infrared Fabry-Perot bandpass filters using phase-change GeSbTe | Litcius