New Methods in X-ray Imaging

Torsten Lauridsen

New Methods in X-ray Imaging

Torsten Lauridsen

Abstract

A couple of decades ago, x-ray tomography was a technique largely reserved for a few specialists fromthe hospitals' diagnostic departments and university based reseach groups. But during the last 20 yearsx-ray imaging has become much more available outside these narrow circles as a method to help theadvancement of many dierent academic and industrial elds.In this thesis I describe my work on developing the techniques within the eld and studying their possibleapplications as well as my collaboration with external researchers, applying x-ray imaging methodsto answer scientic questions within their particular elds.For the sake of completeness I start my thesis from the electric eld equation. From there I derivethe transport of intensity equation, the Fresnel propagator function and the basic formula of propagatedintensity used in holotomography. I also sketch the principles behind the magnication eect andinteractions between x-rays and matter.From these fundamental formulas and principles, I move on to describe the practical aspects of xrayimaging in more detail. I describe the basis of the dierent contrast mechanisms in absorption,holotomography and grating interferometry. I have also included a description of the basic principlesbehind tomogram reconstruction.Next, I describe my work relating to image construction from grating interferometer data, boththe adaptive-period sine tting method and the anisotropic tomogram reconstruction algorithm I havedeveloped.Thereafter I move on to describe my work investigating the applicability of the grating interferometerdark-eld signal for detecting sub-resolution sized cracks in a solid material and for detecting misalignedbers in a ber composite material.In the next chapter I introduce the ideas and main conclusions from my collaboration with researchersfrom other academic elds. Finally, I sum up my work and give my view on the future possibilities andchallenges within the eld.

Original language	English

Publisher	The Niels Bohr Institute, Faculty of Science, University of Copenhagen
Publication status	Published - 2018

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title = "New Methods in X-ray Imaging",

abstract = "A couple of decades ago, x-ray tomography was a technique largely reserved for a few specialists fromthe hospitals' diagnostic departments and university based reseach groups. But during the last 20 yearsx-ray imaging has become much more available outside these narrow circles as a method to help theadvancement of many dierent academic and industrial elds.In this thesis I describe my work on developing the techniques within the eld and studying their possibleapplications as well as my collaboration with external researchers, applying x-ray imaging methodsto answer scientic questions within their particular elds.For the sake of completeness I start my thesis from the electric eld equation. From there I derivethe transport of intensity equation, the Fresnel propagator function and the basic formula of propagatedintensity used in holotomography. I also sketch the principles behind the magnication eect andinteractions between x-rays and matter.From these fundamental formulas and principles, I move on to describe the practical aspects of xrayimaging in more detail. I describe the basis of the dierent contrast mechanisms in absorption,holotomography and grating interferometry. I have also included a description of the basic principlesbehind tomogram reconstruction.Next, I describe my work relating to image construction from grating interferometer data, boththe adaptive-period sine tting method and the anisotropic tomogram reconstruction algorithm I havedeveloped.Thereafter I move on to describe my work investigating the applicability of the grating interferometerdark-eld signal for detecting sub-resolution sized cracks in a solid material and for detecting misalignedbers in a ber composite material.In the next chapter I introduce the ideas and main conclusions from my collaboration with researchersfrom other academic elds. Finally, I sum up my work and give my view on the future possibilities andchallenges within the eld.",

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year = "2018",

language = "English",

publisher = "The Niels Bohr Institute, Faculty of Science, University of Copenhagen",

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AU - Lauridsen, Torsten

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N2 - A couple of decades ago, x-ray tomography was a technique largely reserved for a few specialists fromthe hospitals' diagnostic departments and university based reseach groups. But during the last 20 yearsx-ray imaging has become much more available outside these narrow circles as a method to help theadvancement of many dierent academic and industrial elds.In this thesis I describe my work on developing the techniques within the eld and studying their possibleapplications as well as my collaboration with external researchers, applying x-ray imaging methodsto answer scientic questions within their particular elds.For the sake of completeness I start my thesis from the electric eld equation. From there I derivethe transport of intensity equation, the Fresnel propagator function and the basic formula of propagatedintensity used in holotomography. I also sketch the principles behind the magnication eect andinteractions between x-rays and matter.From these fundamental formulas and principles, I move on to describe the practical aspects of xrayimaging in more detail. I describe the basis of the dierent contrast mechanisms in absorption,holotomography and grating interferometry. I have also included a description of the basic principlesbehind tomogram reconstruction.Next, I describe my work relating to image construction from grating interferometer data, boththe adaptive-period sine tting method and the anisotropic tomogram reconstruction algorithm I havedeveloped.Thereafter I move on to describe my work investigating the applicability of the grating interferometerdark-eld signal for detecting sub-resolution sized cracks in a solid material and for detecting misalignedbers in a ber composite material.In the next chapter I introduce the ideas and main conclusions from my collaboration with researchersfrom other academic elds. Finally, I sum up my work and give my view on the future possibilities andchallenges within the eld.

AB - A couple of decades ago, x-ray tomography was a technique largely reserved for a few specialists fromthe hospitals' diagnostic departments and university based reseach groups. But during the last 20 yearsx-ray imaging has become much more available outside these narrow circles as a method to help theadvancement of many dierent academic and industrial elds.In this thesis I describe my work on developing the techniques within the eld and studying their possibleapplications as well as my collaboration with external researchers, applying x-ray imaging methodsto answer scientic questions within their particular elds.For the sake of completeness I start my thesis from the electric eld equation. From there I derivethe transport of intensity equation, the Fresnel propagator function and the basic formula of propagatedintensity used in holotomography. I also sketch the principles behind the magnication eect andinteractions between x-rays and matter.From these fundamental formulas and principles, I move on to describe the practical aspects of xrayimaging in more detail. I describe the basis of the dierent contrast mechanisms in absorption,holotomography and grating interferometry. I have also included a description of the basic principlesbehind tomogram reconstruction.Next, I describe my work relating to image construction from grating interferometer data, boththe adaptive-period sine tting method and the anisotropic tomogram reconstruction algorithm I havedeveloped.Thereafter I move on to describe my work investigating the applicability of the grating interferometerdark-eld signal for detecting sub-resolution sized cracks in a solid material and for detecting misalignedbers in a ber composite material.In the next chapter I introduce the ideas and main conclusions from my collaboration with researchersfrom other academic elds. Finally, I sum up my work and give my view on the future possibilities andchallenges within the eld.

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M3 - Ph.D. thesis

BT - New Methods in X-ray Imaging

PB - The Niels Bohr Institute, Faculty of Science, University of Copenhagen

ER -

New Methods in X-ray Imaging

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