Ultrafast, high modulation depth terahertz modulators based on carbon nanotube thin films

Ultrafast, high modulation depth terahertz modulators based on carbon nanotube thin films

The development of THz technology and communication systems is creating demand for devices that can modulate THz beams rapidly. Here we report the design and characterisation of high-performance, broadband THz modulators based on the photo-induced transparency of carbon nanotube films. Rather than o...

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Bibliographic Details
Published in:Carbon (New York) Vol. 173; pp. 245 - 252
Main Authors: Burdanova, Maria G., Katyba, Gleb M., Kashtiban, Reza, Komandin, Gennady A., Butler-Caddle, Edward, Staniforth, Michael, Mkrtchyan, Aram A., Krasnikov, Dmitry V., Gladush, Yuriy G., Sloan, Jeremy, Nasibulin, Albert G., Lloyd-Hughes, James
Format: Journal Article
Language:English
Published: New York Elsevier Ltd 01-03-2021
Elsevier BV
Subjects:
Broadband
Carbon
Carbon nanotubes
Communications systems
Film thickness
Frequency ranges
Insertion loss
Modulation
Modulators
Nanotubes
Terahertz modulator
Thin films
THz-TDS
Ultrafast devices
Terahertz modulator
Carbon nanotubes
THz-TDS
Ultrafast devices
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Summary:The development of THz technology and communication systems is creating demand for devices that can modulate THz beams rapidly. Here we report the design and characterisation of high-performance, broadband THz modulators based on the photo-induced transparency of carbon nanotube films. Rather than operating in the standard modulation mode, where optical excitation lowers transmission, this new class of modulators exhibits an inverted modulation mode with an enhanced transmission. Under femtosecond pulsed illumination, modulation depths reaching +80% were obtained simultaneously with modulation speeds of 340 GHz. The influence of the film thickness on the insertion loss, modulation speed and modulation depth was explored over a frequency range from 400 GHz to 2.6 THz. The excellent modulation depth and high modulation speed demonstrated the significant potential of carbon nanotube thin films for ultrafast THz modulators. [Display omitted]
ISSN:0008-6223
1873-3891
DOI:10.1016/j.carbon.2020.11.008