Modern terahertz (THz) spectrometers based on coherent sources of radiation, the backward-wave oscillators (BWOs), cover frequencies v = 2 cm/sup -1/ - 45 cm/sup -1/ (60-1350 GHz) and allow for measurements at temperatures 2-1000 K, also in magnetic fields up to 8 Tesla (Koslov and Volkov, 1998). They are of a hybrid type and combine merits of techniques existing in neighboring microwave and infrared ranges: the "high quality" of the working radiation (highly monochromatic and polarized, finely frequency-tunable), on one hand, and the broad-band flexible quasioptical measurement schemes (no waveguides are used, radiation is travelling in free space), on the other hand. The main feature of BWO-spectrometers which is important for spectroscopists is that they allow for a direct determination of the spectra of any optical quantity of the sample under study: real and imaginary parts of refractive index n*(v) = n(v) + ik(v), dielectric constant /spl epsiv/*(v) = /spl epsiv/'(v) + i/spl epsiv/"(v), dynamical conductivity /spl sigma/*(v) = /spl sigma/'(v) + i/spl sigma/"(v), magnetic permeability /spl mu/*(v) = /spl mu/'(v) + i/spl mu/"(v), etc.
Methodology and hardware of terahertz BWO-spectroscopy
2005-01-01
935657 byte
Conference paper
Electronic Resource
English
MC5-43 Methodology and Hardware of Terahertz BWO-Spectroscopy
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