51. Controlling Tamm Plasmons for Organic Narrowband Near-Infrared Photodetectors
- Author
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Matthias Böhm, Dhriti Sundar Ghosh, Karl Leo, Christian Körner, Koen Vandewal, Johannes Benduhn, Andreas Mischok, Bernhard Siegmund, Hartmut Fröb, and Donato Spoltore
- Subjects
Materials science ,Physics::Optics ,Photodetector ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,Spectral line ,law.invention ,Resonator ,Optics ,Narrowband ,law ,Electrical and Electronic Engineering ,Plasmon ,business.industry ,021001 nanoscience & nanotechnology ,Distributed Bragg reflector ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences ,Electronic, Optical and Magnetic Materials ,Photodiode ,Optoelectronics ,0210 nano-technology ,business ,Biotechnology ,Visible spectrum - Abstract
Organic spectrometers are attractive for biomedicine and industrial process monitoring but are currently limited in terms of spectral selectivity and the accessible wavelength range. Here, we achieve narrowband enhancement of the below-gap near-infrared response of charge-transfer (CT) excitations in organic photodiodes by introducing them into a high-quality microcavity. The device architecture includes a nonconductive distributed Bragg reflector and thin metal electrodes, leading to the formation of sharp Tamm plasmon-polariton resonances. We demonstrate how to tailor the arising multimode spectra for spectroscopic photodetectors and present efficient single-resonance devices with remarkable line widths below 22 nm, which are partially transparent for visible wavelengths. Taking advantage of the spectrally broad CT band, we vary the resonator thickness to provide a proof of concept that benefits from the spectral selectivity of our high-quality microcavities. Finally, utilizing transfer-matrix calculati...
- Published
- 2017
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