Abstract

For terahertz spectroscopy on single crystals, the wavelength lambda often is comparable to the size of the studied samples, emphasizing diffraction effects. Using a continuous-wave terahertz spectrometer in transmission geometry, we address the effect of the sample size on the achievable accuracy of the optical properties, focusing in particular on the phase data. We employ alpha-lactose monohydrate as a paradigmatic example and compare data that were measured using apertures with diameters D in the range from 10 to 0.2 mm. For small D, strong diffraction typically invalidates a quantitative analysis of the transmitted amplitude at low frequencies. The phase data, however, can be evaluated to lower frequency and show a more systematic dependence on D. For a quantitative analysis, we employ a waveguide picture for the description of small apertures with a cylindrical bore. For D as small as 0.2 mm, corresponding to 1/D = 50 cm^{-1}, a circular waveguide does not support propagating waves below its cut-off frequency 1/lambda _c = omega _c/2pi c approx 29 cm^{-1}. Experimentally, we confirm this cut-off for cylindrical apertures with a thickness d_{text {ap}} = 1 mm. Close to omega _c, the measured phase velocity is an order of magnitude larger than c, the speed of light in vacuum. The cut-off is washed out if a sample is mounted on a thin aperture with a conical bore. In this case, the phase data of alpha-lactose monohydrate for D = 0.2 mm can quantitatively be described down to about 10 cm^{-1} if the waveguide-like properties of the aperture are taken into account in the analysis.

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