Title :
Compression Molded Terahertz Transmission Blaze-Grating
Author :
Scherger, Benedikt ; Born, Norman ; Jansen, Christian ; Schumann, Steffen ; Koch, Martin ; Wiesauer, Karin
Author_Institution :
Philipps-Univ. Marburg, Marburg, Germany
Abstract :
We present a terahertz transmission blaze-grating, which can be fabricated, easily, cost efficiently and in large numbers using compression molding of micro-powder. The diffraction properties of the grating are derived by simulation of electro-magnetic field scattering and are compared with angle-dependent measurements obtained in a terahertz time-domain setup. An excellent match between simulation and measurement is found, demonstrating the ability of the terahertz transmission blaze-grating for spatial dispersion of terahertz waves. Thus, this and similar terahertz transmission blaze-gratings can be used as dispersive elements for applications such as spectrometers or novel THz imaging systems.
Keywords :
compression moulding; diffraction gratings; terahertz wave spectra; angle-dependent measurements; compression molded terahertz transmission blaze-grating; dispersive elements; electromagnetic field scattering simulation; grating diffraction properties; micropowder compression molding; spatial dispersion; spectrometers; terahertz imaging systems; terahertz time-domain setup; terahertz waves; Diffraction; Diffraction gratings; Fabrication; Gratings; Imaging; Lenses; Optimized production technology; Diffraction gratings; optical fabrication; terahertz (THz) spectroscopy;
Journal_Title :
Terahertz Science and Technology, IEEE Transactions on
DOI :
10.1109/TTHZ.2012.2210892
