Longitudinal phase space tomography of charged particle beams

Longitudinal phase space tomography of charged particle beams

Charged particle accelerators often have strict requirements on the beam energy, and timing to calibrate, or control background processes. Longitudinal Phase Space Tomography is a technique developed in 1987 to visualize the time, and energy coordinates of a beam. With non-invasive detectors, the be...

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Bibliographic Details
Main Author: Evans, Nicholas John
Format: Others
Language:en
Published: 2014
Subjects:
Particle accelerator
Tomography
Transition crossing
Online Access:http://hdl.handle.net/2152/26055
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spelling ndltd-UTEXAS-oai-repositories.lib.utexas.edu-2152-260552015-09-20T17:25:30ZLongitudinal phase space tomography of charged particle beamsEvans, Nicholas JohnParticle acceleratorTomographyTransition crossingCharged particle accelerators often have strict requirements on the beam energy, and timing to calibrate, or control background processes. Longitudinal Phase Space Tomography is a technique developed in 1987 to visualize the time, and energy coordinates of a beam. With non-invasive detectors, the beam can be visualized at any point during operation of a synchrotron. With the progress of computing power over the last 27 years, it is now possible to compute tomographic reconstructions in real time accelerator operations for many bunches around the accelerator ring. This thesis describes a real-time, multi-bunch tomography system developed and implemented in Fermilab's Main Injector and Recycler Rings, and a study of bunch growth when crossing transition. Implications of these studies for high intensity operation of the Fermilab accelerators are presented.text2014-09-22T14:37:00Z2014-082014-09-03August 20142014-09-22T14:37:00ZThesisapplication/pdfhttp://hdl.handle.net/2152/26055en
collection NDLTD
language en
format Others
sources NDLTD
topic Particle accelerator
Tomography
Transition crossing
spellingShingle Particle accelerator
Tomography
Transition crossing
Evans, Nicholas John
Longitudinal phase space tomography of charged particle beams
description Charged particle accelerators often have strict requirements on the beam energy, and timing to calibrate, or control background processes. Longitudinal Phase Space Tomography is a technique developed in 1987 to visualize the time, and energy coordinates of a beam. With non-invasive detectors, the beam can be visualized at any point during operation of a synchrotron. With the progress of computing power over the last 27 years, it is now possible to compute tomographic reconstructions in real time accelerator operations for many bunches around the accelerator ring. This thesis describes a real-time, multi-bunch tomography system developed and implemented in Fermilab's Main Injector and Recycler Rings, and a study of bunch growth when crossing transition. Implications of these studies for high intensity operation of the Fermilab accelerators are presented. === text
author Evans, Nicholas John
author_facet Evans, Nicholas John
author_sort Evans, Nicholas John
title Longitudinal phase space tomography of charged particle beams
title_short Longitudinal phase space tomography of charged particle beams
title_full Longitudinal phase space tomography of charged particle beams
title_fullStr Longitudinal phase space tomography of charged particle beams
title_full_unstemmed Longitudinal phase space tomography of charged particle beams
title_sort longitudinal phase space tomography of charged particle beams
publishDate 2014
url http://hdl.handle.net/2152/26055
work_keys_str_mv AT evansnicholasjohn longitudinalphasespacetomographyofchargedparticlebeams
_version_ 1716823947589189632

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