Numerical and Experimental Time-Domain Characterization of Terahertz Conducting Polymers

Numerical and Experimental Time-Domain Characterization of Terahertz Conducting Polymers

A comprehensive framework for the theoretical and experimental investigation of thin conducting films for terahertz applications is presented. The electromagnetic properties of conducting polymers spin-coated on low-loss dielectric substrates are characterized by means of terahertz time-domain spect...

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Veröffentlicht in:IEEE photonics technology letters 2018-09, Vol.30 (17), p.1579-1582
Hauptverfasser: Zografopoulos, Dimitrios C., Prokopidis, Konstantinos P., Ferraro, Antonio, Peters, Luke, Peccianti, Marco, Beccherelli, Romeo
Format: Artikel
Sprache:eng
Schlagworte:
Computer simulation
Conducting polymers
Dielectric properties
Dielectrics
Electromagnetic properties
Finite difference methods
finite-different time-domain method
Mathematical models
Media
Optoelectronic devices
Permittivity
Plastics
Polymers
Spin coating
Substrates
terahertz science
Thickness
Thin films
Time-domain analysis
time-domain spectroscopy
Transparent electrodes
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Beschreibung
Zusammenfassung:A comprehensive framework for the theoretical and experimental investigation of thin conducting films for terahertz applications is presented. The electromagnetic properties of conducting polymers spin-coated on low-loss dielectric substrates are characterized by means of terahertz time-domain spectroscopy and interpreted through the Drude-Smith model. The analysis is complemented by an advanced finite-difference time-domain algorithm, which rigorously deals with both the dispersive nature of the involved materials and the extremely subwavelength thickness of the conducting films. Significant agreement is observed among experimental measurements, numerical simulations, and theoretical results. The proposed approach provides a complete toolbox for the engineering of terahertz optoelectronic devices.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2018.2862148