Patent ID: 6970252

Claim:
Low-coherence interferometric device for light optical depth scanning of an object positioned in front of a measurement aperture of the device by detecting the position of light reflecting sites which are located at different measurement depths within the object along a scanning path running into the object in a scanning direction having a low-coherence interferometer which comprises a low-coherence light source, a beam splitter, a reference reflector and a detector, wherein; the light paths between the elements of the interferometer form interferometer arms, namely a light source arm between the light source and the beam splitter, an object arm between the beam splitter and the light-reflecting site in the object, a reference arm between the beam splitter and the reference reflector and a detector arm between the beam splitter and the detector; measurement light is irradiated in the scanning direction, as primary light, into the object via the light source arm and the object arm and light reflected at the light-reflecting site in the object is directed, as secondary light, via the object arm and the detector arm to the detector; reference light is directed from the beam splitter to the reference reflector and from there via the reference arm and the detector arm to the detector; and the measurement light and the reference light are combined in order to generate an interference signal when an optical path length of the measurement light path consisting of the light source arm, the object arm and the detector arm corresponds to the optical length of the reference light path consisting of the light source arm, the reference arm and the detector arm, wherein: the interferometer is a free-space in-line interferometer comprising a beam splitter with a reflecting surface, said reflecting surface being oriented transverse to the scanning direction, the beam splitter splitting incident light into a component passing through said reflecting surface and a component reflected from said reflecting surface, the light source, the detector and the reference mirror being arranged on a side of the reflecting surface of the beam splitter facing away from the measurement aperture, the light source arm and the reference arm run at least in sections of the light source arm and of the reference arm adjacent to the beam splitter reflecting surface at the same angle to the beam splitter reflecting surface, a movable scanning lens is arranged between the beam splitter reflecting surface and the measurement aperture; and the movable scanning lens and the beam splitter are movable for depth scanning in the same direction and in synchronization.