Patent ID: 9175987
Filing Date: 2015-11-03
Classification: G01B,G01D

Abstract:
1. A displacement detecting device to detect a displacement of a surface having a diffraction grating arranged thereon, in a direction perpendicular to the surface, the displacement detecting device comprising: an irradiation optical system including a beam splitter to split a light from a light source into two light-beams and a first pair of mirrors to reflect the two light-beams so as to be incident on the diffraction grating, the irradiation optical system structured to cause the two light-beams to be incident on substantially a same point of the diffraction grating respectively from opposite directions at different angles, with respect to a plane perpendicular to a direction along which grating structures of the diffraction grating are periodically arranged, so that a +mth-order diffracted light and a −mth-order diffracted light of each of the two light-beams incident on the diffraction grating are generated; and a second pair of mirrors arranged to reflect the +mth-order diffracted light of one of the two-light beams incident on the diffraction grating and the −mth-order diffracted light of the other one of the two light-beams incident on the diffraction grating, that have been generated at the diffraction grating, so as to return to the same point of the diffraction grating at which the two light-beams have been incident and to be diffracted again by the diffraction grating, wherein, when it is defined that an incident angle between a normal line of the surface having the diffraction grating arranged thereon and an incident light onto the diffraction grating is always positive, and a diffraction angle between the normal line and a diffracted light of the incident light is positive when the diffracted light is on a same side of the incident light with respect to the normal line and negative when the diffracted light is on the opposite side of the incident light with respect to the normal line, each incident angle of the two light-beams incident on the diffraction grating and each diffraction angle of the +mth-order diffracted light of one of the two light-beams incident on the diffraction grating and the +mth-order diffracted light of the other of the two light-beams incident on the diffraction grating that have been generated at the diffraction grating and reflected by the second pair of mirrors so as to return to the same point of the diffraction grating at which the two light-beams have been incident, satisfy an equation sinθ wherein the irradiation optical system is further structured to serve as an interference optical system to cause the +mth-order diffracted light of one of the two light-beams and the −mth-order diffracted light of the other one of the two light-beams that have been reflected by the second pair of mirrors so as to return to the diffraction grating, and diffracted again by the diffraction grating, to interfere with each other, so as to generate an interference light, the first pair of mirrors reflecting the +mth-order diffracted light of one of the two light-beams and the −mth-order diffracted light of the other one of the two light-beams that have been diffracted again by the diffraction grating, so as to be guided to the first beam splitter, and the first beam splitter causing the +mth-order diffracted light and the −mth-order diffracted light that have been guided to the first beam splitter, to interfere with each other to generate the interference light, the displacement detecting device further comprising: a light-receiving section structured to receive the interference light generated by the interference optical system and generate an interference signal, the light-receiving section including a quarter-wave plate arranged so that the +mth-order diffracted light and the −mth-order diffracted light of the interference light having passed through the quarter-wave plate become two circularly polarized lights with mutually reversed rotational directions, a second beam splitter that splits the interference light that is incident thereon into two beams, two polarizing beam splitters that respectively split each incident beam of the two beams into an s-polarized component and a p-polarized component, and photodiodes that respectively receive the s-polarized and p-polarized components of the two beams and obtain respective electric signals as the interference signal; and a displacement detection section including an A/D converter and an arithmetic unit, structured to detect a displacement of the surface having the diffraction grating arranged thereon, in a direction perpendicular to the surface, based on a change in intensity of the interference signal that has been generated at the light-receiving section, the A/D converter converting the electrical signal obtained by the photodiodes into digital signals, and the arithmetic unit generating two phase incremental signals after performing a waveform correction on the digital signals and calculating the displacement based on the two phase incremental signals.