Patent ID: 11960070
Assignee: CARL ZEISS MICROSCOPY GMBH
Field: Optics (Instruments)
Classification: CPC G | IPC G

Claim 0:
1. Method for capturing a relative alignment of a surface of a coverslip extending substantially in one plane, in which a focus of a light beam is guided along a scanning path and components of the light beam that are reflected by said surface are captured by a laser scanning microscope, wherein said scanning path extends substantially parallel to an x-y-plane of said surface that extends orthogonally to an optical axis of a detection coverslip;
said method comprising:
defining a Cartesian coordinate system as a spatial reference coordinate system for the coverslip, the light beam and the optical axis;
ascertaining a relative position and alignment of said surface on the basis of the reflected components of said light beam;
determining a relative position of the focus along the scanning path, and ascertaining said alignment by connecting a virtual straight line to and between coordinates of two reflections of said light beam to thereby construct a virtual straight connecting line between them and constructing a virtual a normal on said straight connecting line;
virtually ascertaining alignment of the normal relative to the Cartesian coordinate system;
comparing the ascertained alignments of the normal and the alignment of the optical axis of the detection coverslip relative to the Cartesian coordinate system with one another regarding their parallelism;
storing results of the comparison of the ascertained alignments of the normal and the alignment of the optical axis relative to the spatial coordinates of the Cartesian coordinate system the relevant portion of the spanning;
generating control commands for actuating a sample stage,
which holds the coverslip and is adjustable in a controlled manner, based on the results of said comparison; and
actuating the sample stage by way of the control commands such that the normal of the
surface and the optical axis are aligned parallel to one another in an observed location
and/or portion of the surface.