This project aims to develop a compact (chip-scale) source of terahertz waves. These are light waves with a frequency somewhere between those of cellphones and those used for thermal imaging. These terahertz waves could be used for telecommunication since they can provide much higher wireless data rates than the currently used 3G, 4G and WiFi technologies. This increase in data rate is needed since wireless channels are expected to accommodate 2/3 of the data traffic by 2020. The innovation in this field is the compactness of our source, as well as its spectral purity, allowing for higher data rates. Another field of interest of this application is spectroscopy. The low energy of terahertz radiation renders it harmless for biological tissues and DNA. Furthermore, terahertz radiation is not only sensitive to the chemical composition of a substance, but also to the
specific shape and configuration of a certain (bio)molecule. Lots of harmful gases such as CO also show specific absorption lines in the terahertz region. The combination of these characteristics makes terahertz radiation suitable for the characterization of large biomolecules (e.g. DNA), bacteria, pharmaceuticals, substances of abuse, trace gases etc. The innovation here is again compactness, spectral purity and also tunability over the entire frequency range of interest. It serves as a step towards new portable spectroscopy applications, especially in the field of gas sensing, where resolution is important.