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- Interaction of sub-terahertz radiation with low-doped grating-based AlGaN/GaN plasmonic structures. Time-domain spectroscopy measurements and electrodynamic modeling doi link

Auteur(s): Korotyeyev V. V., Lyaschuk Yu M., Kochelap V. A., Varani Luca, Coquillat D., Danylyuk S., Brose S., Vitusevich S. A.

(Article) Publié: Semiconductor Physics, Quantum Electronics Optoelectronics, vol. 22 p.237-251 (2019)
Texte intégral en Openaccess : openaccess


Ref HAL: hal-02167377_v1
DOI: 10.15407/spqeo22.02.237
WoS: WOS:000485818200011
Exporter : BibTex | endNote
3 Citations
Résumé:

We have presented the results of terahertz time-domain spectroscopy measurements and a rigorous electrodynamic modeling of the optical characteristics of grating-based AlGaN/GaN plasmonic structures with low-doped two-dimensional electrongas in the frequency range of 0.1...1.5 THz. Two samples with grating aspect ratios (strip width/period) of 2.4/3 and 1.2/1.5 μm have been investigated. The measured transmission spectra are reconstructed in the calculations with high accuracy. The transmission spectrafor p-polarized incident radiation exhibits Fabri–Pérot oscillation behavior due to theoptically-thick substrate. The specific values of amplitude and spectral position of thetransmission maxima are associated with the coupling of terahertz radiation with 2Delectron gas due to plasmon excitations. Both calculations and transmission/reflectionmeasurements demonstrate that plasmonic structures with micro-scaled metallic gratinghave three-fold increase of non-resonant absorption of terahertz radiation in comparisonwith the bare heterostructure. The polarization measurements of the transmission spectra ofthe plasmonic structures well agree with calculations and indicate a well-pronounced filtering effect of the grating for the s-component of the incident electromagnetic wave. The obtained values of the transmission for p- and s-polarized incident radiation demonstrate the high quality of deposited metallic grating with the extinction ratio higher than 80:1 for sub- and few THz frequency range.