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Fourier optics modeling of interference microscopes

Peter J. de Groot, Xavier Colonna de Lega

2020Journal of the Optical Society of America A46 citationsDOI

Abstract

We propose a practical theoretical model of an interference microscope that includes the imaging properties of optical systems with partially coherent illumination. We show that the effects on measured topography of a spatially extended, monochromatic light source at low numerical apertures can be approximated in a simplified model that assumes spatially coherent light and a linear, locally shift-invariant transfer function that accounts for optical aberrations and the attenuation of diffracted plane wave amplitudes with increasing spatial frequencies. Simulation of instrument response using this model agrees with methods using numerical pupil-plane integration and with an experimental measurement of surface topography.

Topics & Concepts

OpticsMonochromatic colorDiffractionInterference (communication)PhysicsInterference microscopyMicroscopePupil functionFourier opticsSpatial frequencyOptical transfer functionFourier transformAttenuationExit pupilTransfer functionAmplitudePupilComputer scienceChannel (broadcasting)Quantum mechanicsEngineeringElectrical engineeringComputer networkOptical measurement and interference techniquesNear-Field Optical MicroscopyDigital Holography and Microscopy
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