Abstract
Long wavelength infrared (LWIR) is highly attractive spectra to the correspondence of chemical bonding and molecular motion. In recent years, we have developed a passive LWIR scattering-type scanning near-field optical microscopy (s-SNOM) that detects surface waves introduced by such local phenomena (wavelength: $14.5~\mu \text{m}$ ) with a spatial resolution of 20 nm without any external light sources. Here, we report a newly developed passive near-field spectroscopic system that allows a spectroscopic measurement of detectable wavelengths ranging from 8 to 16 $\mu \text{m}$ . We designed and built a grating-based optical system and proved to have a diffraction efficiency of more than 60% over the detectable wavelengths ranges. This newly developed spectroscopic system would have the potential to distinguish the energy of different wavelengths with a spectral resolution of 100 nm.
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