The 2017 terahertz science and Technology roadmap

URN to cite this document:: urn:nbn:de:bvb:355-epub-350773
DOI to cite this document:: 10.5283/epub.35077

Dhillon, S. S. ; Vitiello, M. S. ; Linfield, E. H. ; Davies, A. G. ; Hoffmann, Matthias C. ; Booske, John ; Paoloni, Claudio ; Gensch, M. ; Weightman, P. ; Williams, G. P. ; Castro-Camus, E. ; Cumming, D. R. S. ; Simoens, F. ; Escorcia-Carranza, I. ; Grant, J. ; Lucyszn, Stephan ; Kuwata-Gonokami, Makoto ; Kohishi, Kuniaki ; Koch, Martin ; Schmuttenmaer, Charles A. ; Cocker, Tyler L. ; Huber, Rupert ; Markelz, A. G. ; Tayler, Z. D. ; Wallace, Vincent P. ; Zeitler, J. Axel ; Sibik, Juraj ; Korter, Timothy M. ; Ellison, B. ; Rea, S. ; Goldsmith, P. ; Cooper, Ken B. ; Appleby, Roger ; Pardo, D. ; Huggard, P. G. ; Krozer, V. ; Shams, Hayman ; Fice, Martyn ; Renaud, Cyril ; Seeds, Alwyn ; Stöhr, Andreas ; Naftaly, Mira ; Ridler, Nick ; Clarke, Roland ; Cunningham, John E. ; Johnston, Michael B.

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Date of publication of this fulltext: 23 Jan 2017 13:11

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Abstract

Science and technologies based on terahertz frequency electromagnetic radiation (100 GHz–30 THz) have developed rapidly over the last 30 years. For most of the 20th Century, terahertz radiation, then referred to as sub-millimeter wave or far-infrared radiation, was mainly utilized by astronomers and some spectroscopists. Following the development of laser based terahertz time-domain spectroscopy ...