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We have revealed the picosecond dynamics of lower alcohols by employing terahertz time-domain attenuated total reflection spectroscopy and have found that there exists no temperature-dependent relaxation in terahertz frequency region.
We have demonstrated that terahertz time-domain attenuated total reflection spectroscopy is a powerful tool of measuring the dielectric constants of various organic powder samples.
We have determined the complex dielectric constant of water and heavy water in the range from 0.2 to 3.5 THz from 269 to 362 K by employing THz time-domain attenuated total reflection spectroscopy. We find the THz component can be assigned not only to the Debye relaxation but also a vibration mode, which is found in other complimentary experiments.
We have established a novel spectroscopy that is a combination of THz time-domain spectroscopy and attenuated total-reflection technique. This spectroscopy enables us to explore surface polariton modes in metals and dielectrics. In addition, this will open a new possibility for biological and medical sensing in waters.
We investigated surface phonon polariton resonance in cesium iodide by terahertz time-domain attenuated total reflection spectroscopy. Systematic experimental results are directly accounted by the strong enhancement of the electric field at the interface.
We demonstrate terahertz time-domain attenuated total reflection spectroscopy of various organic powder samples, which is useful for convenient and repeatable characterization of the materials such as biomolecules.
We have established a novel spectroscopy that is a combination of THz time-domain spectroscopy and attenuated total-reflection technique. This spectroscopy will open a new possibility for biological and medical sensing in waters.
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