Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy

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doi:10.4233/uuid:d8f88824-40cc-4358-b7a0-a2d932eb65f5

Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy

Doctoral Thesis (2018)

Author(s)

D. Wilding (TU Delft - Team Raf Van de Plas)

Contributor(s)

M Verhaegen – Promotor (TU Delft - Team Raf Van de Plas)

R. Van de Plas – Copromotor (TU Delft - Team Raf Van de Plas)

Research Group

Team Raf Van de Plas

Copyright

Microscopy Optics Adaptive optics Deconvolution Fluorescence Aberrations

To reference this document use:

https://doi.org/10.4233/uuid:d8f88824-40cc-4358-b7a0-a2d932eb65f5

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Publication Year

2018

Language

English

Copyright

Research Group

Team Raf Van de Plas

ISBN (print)

978-94-6233-996-5

Reuse Rights

Other than for strictly personal use, it is not permitted to download, forward or distribute the text or part of it, without the consent of the author(s) and/or copyright holder(s), unless the work is under an open content license such as Creative Commons.

Abstract

The goal of this thesis, called Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy, concerns itself with the development of new techniques to control adaptive fluorescence microscopes, so that they can adapt and image with increased resolution, contrast and speed inside complex three-dimensional biological samples.

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