TY - GEN U1 - Sonstiges A1 - Ellingen, Elias A1 - Rohde, Markus A1 - Stahl, Bastian A1 - Lange, Robert T1 - Fourier scatterometry for compensation of tilt and curvature deviations of two photon polymerization 3d printers N2 - A Fourier scatterometry setup is evaluated to recover the key parameters of optical phase gratings. Based on these parameters, systematic errors in the printing process of two photon polymerization (TPP) gray-scale lithography 3d printers can be compensated, namely tilt and curvature deviations. The proposed setup is significantly cheaper than a confocal microscope, which is usually used to determine calibrations parameters for compensation of the TPP printing process. The grating parameters recovered this way are compared to those obtained with a confocal microscope. A clear correlation between confocal and scatterometric measurements is first shown for structures containing either tilt or curvature. The correlation is also shown for structures containing a mixture of tilt and curvature errors (squared Pearson coefficient $r^2$ = 0.92). This new compensation method is demonstrated on a TPP printer: A diffractive optical element (DOE) printed with correction parameters obtained from Fourier scatterometry shows a significant reduction in noise as compared to the uncompensated system. This verifies the successful reduction of tilt and curvature errors. Further improvements of the method are proposed, which may enable the measurements to become more precise than confocal measurements in the future, since scatterometry is not affected by the diffraction limit. KW - Engineering KW - Capsule U6 - https://doi.org/10.24433/CO.3055138.v1 DO - https://doi.org/10.24433/CO.3055138.v1 PB - Code Ocean ET - 1.1 ER -