Wireless Terahertz Communications

W. Freude; T. Harter; S. Ummethala; S. Muehlbrandt; M. Blaicher; S. Wolf; M. Weber; F. Boes; H. Massler; A. Tessmann; Y. Kutuvantavida; J. N. Kemal; S. Nellen; L. Hahn; B. Globisch; M. Walther; T. Zwick; S. Randel; C. Koos

2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 2019),
paper cc_5_1

Wireless Terahertz Communications

W. Freude, T. Harter, S. Ummethala, S. Muehlbrandt, M. Blaicher, S. Wolf, M. Weber, F. Boes, H. Massler, A. Tessmann, Y. Kutuvantavida, J. N. Kemal, S. Nellen, L. Hahn, B. Globisch, M. Walther, T. Zwick, S. Randel, and C. Koos

The European Conference on Lasers and Electro-Optics 2019

Munich Germany
23–27 June 2019
ISBN: 978-1-7281-0469-0

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THz applications (cc_5)

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W. Freude, T. Harter, S. Ummethala, S. Muehlbrandt, M. Blaicher, S. Wolf, M. Weber, F. Boes, H. Massler, A. Tessmann, Y. Kutuvantavida, J. N. Kemal, S. Nellen, L. Hahn, B. Globisch, M. Walther, T. Zwick, S. Randel, and C. Koos, "Wireless Terahertz Communications," in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, OSA Technical Digest (Optica Publishing Group, 2019), paper cc_5_1.

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Abstract

Over the past years, interest in wireless THz communications with so-called T-waves has tremendously increased [1]− [4], because the large carrier frequencies in the range 0.2 THz to 0.9 THz support wide signal bandwidths and consequently large data rates. Transmission over hundreds of meters and line rates exceeding 100 Gbit/s were demonstrated [5]− [10]. Typical atmospheric losses are 0.2 dB/100 m at 0.2 THz, 0.5 dB/100 m at 0.3 THz, 1.5 dB/100 m at 0.4 THz, and 5 dB/100 m at 0.9 THz.

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