@proceedings {299, title = {Angular Distortion Removal of THz Anisotropic Dichroism Microscope}, year = {2019}, month = {2019}, pages = {1 - 2}, address = {Paris, France}, abstract = {

We have developed a stationary sample THz anisotropic dichroism microscope as a powerful tool for material characterization. The key innovation is the use of an iso-response curve defined by the terahertz and detection light polarizations. Here we show that following a continuous iso-response curve introduces angular distortion in the spectrum, and this distortion can be eliminated by using a discontinuous iso-response angle pairs avoiding large gradient regions. Employing this additional constraint on the relative polarizations provides a convenient technique for rapid anisotropic terahertz spectroscopy.

}, keywords = {absorption, angular distortion removal, Biomedical measurement, continuous iso-response curve, detection light polarizations, discontinuous iso-response angle pairs, Distortion, light polarisation, material characterization, Microscopy, proteins, rapid anisotropic terahertz spectroscopy, relative polarizations, spectroscopy, stationary sample, terahertz spectroscopy, terahertz wave spectra, THz anisotropic dichroism microscope, vibrations}, isbn = {2162-2035}, doi = {10.1109/IRMMW-THz.2019.8873793}, url = {https://ieeexplore.ieee.org/document/8873793}, author = {Y. Deng and K. Niessen and A. Markelz} }