Patent ID: 7582870
Filing Date: 2009-09-01
Classification: G01J,G01N,G02B

Abstract:
1. An imaging apparatus for JR four-wave mixing polarization microscopy, comprising: a pump beam source for generating an infrared pump beam which excites medium molecules constituting a sample with a frequency in molecular vibration bands so as to be resonated with each other and thus forms a molecular vibration coherence; a probe beam source for generating a probe beam which detects the molecular coherence of a sample locally induced by the infrared pump beam; a polarizer for linearly polarizing the pump beam and the probe beam; a beam combiner which synchronizes temporally and overlaps spatially the polarized pump beam and probe beam on the same path; a scanner for two-dimensionally scanning the pump beam and the probe beam combined by the beam combiner so as to obtain a microscopic image; an optical focusing system for focusing the scanned pump beam and probe beam on a local point within the sample; a collecting optical system for collecting the beam which is formed by that the beams focused by the optical focusing system are interacted with the sample and of which phase is anisotropically retarded by nonlinear birefringence of the sample, and then forming a parallel beam; a dichroic beam splitter for removing the infrared pump beam out of the parallel beam formed by the collecting optical system and splitting the probe beam of which phase is anisotropically retarded; a polarizing beam splitter for converting the probe beam splitted and anisotropically phase-retarded by the dichroic beam splitter into linerly polarized beams having axial components perpendicular to each other; a photodetector for detecting an intensity of each of the linearly polarized beams converted by the polarizing beam splitter; a polarization differential detector for detecting a polarization difference based on the intensities of the linerly polarized beams detected by the photodetector; and a data analyzer for collecting the polarization difference detected by the polarization differential detector and generating and extracting a spectrospcopic signal according to a molecular vibrational coherence strength of the sample.