Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy

Dean Wilding

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

Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy

Dean Wilding

Team Raf Van de Plas

Research output: Thesis › Dissertation (TU Delft)

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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.

Original language	English
Qualification	Doctor of Philosophy
Awarding Institution	Delft University of Technology
Supervisors/Advisors	Verhaegen, M.H.G., Supervisor Van de Plas, R., Advisor
Thesis sponsors	European Research Council (ERC)
Award date	12 Sept 2018
Print ISBNs	978-94-6233-996-5
DOIs	https://doi.org/10.4233/uuid:d8f88824-40cc-4358-b7a0-a2d932eb65f5
Publication status	Published - 2018

Keywords

adaptive optics
microscopy
fluorescence
deconvolution
optics
aberrations

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

Dean Wilding PhD ThesisFinal published version, 23.1 MBLicence: Unspecified

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title = "Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy",

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keywords = "adaptive optics, microscopy, fluorescence, deconvolution, optics, aberrations",

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language = "English",

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type = "Dissertation (TU Delft)",

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N2 - 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.

AB - 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.

KW - adaptive optics

KW - microscopy

KW - fluorescence

KW - deconvolution

KW - optics

KW - aberrations

UR - http://resolver.tudelft.nl/uuid:d8f88824-40cc-4358-b7a0-a2d932eb65f5

U2 - 10.4233/uuid:d8f88824-40cc-4358-b7a0-a2d932eb65f5

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

M3 - Dissertation (TU Delft)

SN - 978-94-6233-996-5

ER -

Physical and Computational Approaches to Aberration Correction In Fluorescence Microscopy

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Keywords

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