Patent ID: 8749780
Filing Date: 2014-06-10
Classification: G01J,G01N

Abstract:
1. A circular dichroism spectrometer including: a light source that emits light to be radiated onto a sample, a polarizer that converts light from the light source to linearly polarized light, a photoelastic modulator that converts the linearly polarized light to right-handed circularly polarized light and left-handed circularly polarized light alternately and cyclically, a sample stage on which the sample is placed at a position to which the right-handed circularly polarized light or left-handed circularly polarized light is radiated, a detector-side focusing lens that collects light transmitted through the sample on the sample stage, a detector that detects the light collected by the detector-side focusing lens, a lock-in amplifier that extracts an AC signal in synchronization with a reference signal having the same frequency as the frequency of a voltage applied to the photoelastic modulator, a spectrum processor that obtains a circular dichroism spectrum on the basis of the AC signal acquired from the lock-in amplifier, a reference sample positioner that places a reference sample on the sample stage, a focusing-lens position-and-orientation adjustment mechanism that adjusts the position of the detector-side focusing lens in the direction of distance to the sample and in the direction of a plane perpendicular to the light transmitted through the sample and the orientation of the detector-side focusing lens, and a spectrum shape analyzer that obtains a first derivative of the circular dichroism spectrum acquired from the spectrum processor and analyzes the shape, wherein the reference sample positioner places one optical enantiomer, which is either the D form or L form of optical enantiomers, as one reference sample on the sample stage, wherein the spectrum processor obtains a circular dichroism spectrum of the one optical enantiomer, wherein the spectrum shape analyzer calculates a first derivative of the circular dichroism spectrum of the one optical enantiomer and compares the shape with the shape of the reference spectrum corresponding the one optical enantiomer, wherein the focusing-lens position-and-orientation adjustment mechanism adjusts the position and orientation of the detector-side focusing lens such that the differentiated circular dichroism spectrum of the one optical enantiomer matches the reference spectrum related to the one optical enantiomer, wherein the reference sample positioner also places the other optical enantiomer on the sample stage, wherein the spectrum processor also obtains a circular dichroism spectrum of the other optical enantiomer, wherein the spectrum shape analyzer also obtains a first derivative of the circular dichroism spectrum of the other optical enantiomer and compares the shapes of the circular dichroism spectra of the D and L forms, wherein the focusing-lens position-and-orientation adjustment mechanism also adjusts the position and orientation of the detector-side focusing lens such that the circular dichroism spectra of the D and L forms become symmetrical about the wavenumber axis or the wavelength axis.