Roland V. Shack scite author profile

SummaryWe present a technique to measure the wavefront in the exit pupil of a microscope to determine the microscope's threedimensional point spread function (PSF) experimentally. The wavefront yields the microscope PSF through a Fourier transform that models propagation of light from the exit pupil to the image plane. A Shack-Hartmann wavefront sensor is used to measure the wavefront shape by recording lateral displacements of a grid of focused spots created by a lenslet array. The displacement of each spot is related to the local wavefront slope. Thus, with appropriate sampling across the exit pupil, the entire wavefront can be reconstructed. This technique does not require the use of a sub-resolution object to obtain the three-dimensional microscope PSF. Consequently, larger, brighter fluorescent objects may be imaged, thereby reducing the requirements for detector sensitivity and leading to a three-fold increase in the axial range over which the PSF is measured. The Shack-Hartmann technique results in a description of the PSF as a continuous function whose sampling is not dependent on the size of the CCD pixels. The Shack-Hartmann sensor is not limited by the numerical aperture of the objective and can easily be calibrated to measure the PSF at any wavelength.

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<title>Influence Of Alignment Errors Of A Telescope System On Its Aberration Field</title>

Shack

Thompson

1980

121

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Complex permittivity measurements at 8 6 mm wavelength over the temperature range 1-60 C

Grant

Shack

1967

Br. J. Appl. Phys.

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Roland V. Shack

History and Principles of Shack-Hartmann Wavefront Sensing

Measurement of the three‐dimensional microscope point spread function using a Shack–Hartmann wavefront sensor

<title>Influence Of Alignment Errors Of A Telescope System On Its Aberration Field</title>

Complex permittivity measurements at 8 6 mm wavelength over the temperature range 1-60 C

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