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Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
by Smirnov, Serguei , Przewłoka, Aleksandra , Zykov, Dmitry , Khodzitsky, Mikhail , Lioubtchenko, Dmitri , Oberhammer, Joachim , Nefedov, Igor , Demchenko, Petr , Krajewska, Aleksandra
in Aerosols / Carbon / carbon nanotubes / Chemical vapor deposition / Fourier transforms / Glass substrates / Light emitting diodes / phase shifters / photoconductivity / Radiation / Spectrum analysis / terahertz / waveguides
2023
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Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
by Smirnov, Serguei , Przewłoka, Aleksandra , Zykov, Dmitry , Khodzitsky, Mikhail , Lioubtchenko, Dmitri , Oberhammer, Joachim , Nefedov, Igor , Demchenko, Petr , Krajewska, Aleksandra
in Aerosols / Carbon / carbon nanotubes / Chemical vapor deposition / Fourier transforms / Glass substrates / Light emitting diodes / phase shifters / photoconductivity / Radiation / Spectrum analysis / terahertz / waveguides
2023
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Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
by Smirnov, Serguei , Przewłoka, Aleksandra , Zykov, Dmitry , Khodzitsky, Mikhail , Lioubtchenko, Dmitri , Oberhammer, Joachim , Nefedov, Igor , Demchenko, Petr , Krajewska, Aleksandra
in Aerosols / Carbon / carbon nanotubes / Chemical vapor deposition / Fourier transforms / Glass substrates / Light emitting diodes / phase shifters / photoconductivity / Radiation / Spectrum analysis / terahertz / waveguides
2023

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Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers
Journal Article

Sub‐THz Phase Shifters Enabled by Photoconductive Single‐Walled Carbon Nanotube Layers

Smirnov, Serguei,
Przewłoka, Aleksandra,
Zykov, Dmitry,
Khodzitsky, Mikhail,
Lioubtchenko, Dmitri,
Oberhammer, Joachim,
Nefedov, Igor,
Demchenko, Petr,
Krajewska, Aleksandra
2023
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Overview
Materials with tunable dielectric properties are highly relevant for terahertz (THz) applications. Herein, the tuning of the dielectric response of single‐walled carbon nanotube layers by light illumination is studied for applications to THz phase shifters. The dependence of the length of individual nanotubes on the THz photoconductivity of the network is experimentally investigated in the frequency range of 0.2–1 THz by time‐domain spectroscopy (TDS). The effective conductivity of the networks is described by a theoretical model that fits the measured dielectric function. Terahertz phase shifters are realized with the carbon nanotube layers as the optically tunable element deposited on the wall of rectangular dielectric waveguides. The phase of the electromagnetic wave propagating in the waveguide is shown to be tunable by illuminating the nanotubes. A linear phase shift with the frequency is measured between 75 and 500 GHz with a low change in amplitude due to the illumination. The tuning of the dielectric response of single‐walled carbon nanotubes (CNTs) under illumination is studied for applications to THz phase shifters. The dependence of the length of individual nanotubes on the THz photoconductivity of the network is investigated by time‐domain spectroscopy (TDS). Phase shifters are realized with the CNT layers as optically tunable element, integrated with dielectric waveguides.
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Publisher
John Wiley & Sons, Inc,Wiley-VCH
Subject

Aerosols

/ Carbon

/ carbon nanotubes

/ Chemical vapor deposition

/ Fourier transforms

/ Glass substrates

/ Light emitting diodes

/ phase shifters

/ photoconductivity

/ Radiation

/ Spectrum analysis

/ terahertz

/ waveguides

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