Eckhardt, Johannes M.
[Author]
;
Kürner, Thomas
[Degree supervisor] ;
Schober, Robert
[Degree supervisor]
;
Technische Universität Braunschweig
[Degree granting institution] ;
Shaker Verlag
[Publisher]
University thesis:
Dissertation, Technische Universität Carolo-Wilhelmina zu Braunschweig, 2024
Footnote:
Description:
In recent years, terahertz communication has increasingly attracted the attention of the industry, particularly in the context of forthcoming generations of mobile radio systems and novel industrial applications. Simultaneously, it has emerged as a focal point of interest within the scientific community, as well as among standardization and regulatory bodies. The advances in semiconductor technology and radio frequency circuit design enable the exploitation of the low terahertz band and early system realizations have been realized. As research progresses, the focus breaks down into more detailed and specific areas, particularly in the design and realization of concrete applications, to advance terahertz communication to the next technology readiness level. Inseparably linked to the application of the communication system is the mobile radio channel, which must be examined in detail for a successful system design. This dissertation contributes to channel measurement and channel modeling in the context of terahertz links in a data center and analyzes the physical layer with regard to intersymbol interference through multipath propagation, impairments of radio frequency devices and interference from various sources.