Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement

Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement

The edge-focusing (EF) wiggler, which produces the strong field gradient for transverse focusing incorporated with the normal wiggler field, has been fabricated to evaluate its performance rigorously with the magnetic field measurement. It is a five-period planar wiggler with an edge angle of 2° and...

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Main Authors: Shigeru Kashiwagi, Ryukou Kato, Akihito Mihara, Takanori Noda, Goro Isoyama, Kimichika Tsuchiya, Tatsuro Shioya, Shigeru Yamamoto
Format: Article
Language:English
Published: American Physical Society 2009-12-01
Series:Physical Review Special Topics. Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevSTAB.12.120703
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spelling doaj-31bc323806ab40cc8983de95f7465f632020-11-25T00:21:14ZengAmerican Physical SocietyPhysical Review Special Topics. Accelerators and Beams1098-44022009-12-01121212070310.1103/PhysRevSTAB.12.120703Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurementShigeru KashiwagiRyukou KatoAkihito MiharaTakanori NodaGoro IsoyamaKimichika TsuchiyaTatsuro ShioyaShigeru YamamotoThe edge-focusing (EF) wiggler, which produces the strong field gradient for transverse focusing incorporated with the normal wiggler field, has been fabricated to evaluate its performance rigorously with the magnetic field measurement. It is a five-period planar wiggler with an edge angle of 2° and a period length of 60 mm. The magnetic field in the wiggler is measured using Hall probes at four different wiggler gaps. It is experimentally confirmed that a high field gradient of 1.0  T/m is realized, as designed, along the beam axis in the EF wiggler. The magnetic field gradient of the EF wiggler is derived as a function of the magnetic gap. The field gradient decreases with increasing magnet gap more slowly than the peak magnetic field does for the present experimental model. An analytic formula for the field gradient of the EF wiggler is derived and it is shown that the slope of the field gradient with the magnet gap can be changed by varying the magnet width of the EF wiggler.http://doi.org/10.1103/PhysRevSTAB.12.120703
collection DOAJ
language English
format Article
sources DOAJ
author Shigeru Kashiwagi
Ryukou Kato
Akihito Mihara
Takanori Noda
Goro Isoyama
Kimichika Tsuchiya
Tatsuro Shioya
Shigeru Yamamoto
spellingShingle Shigeru Kashiwagi
Ryukou Kato
Akihito Mihara
Takanori Noda
Goro Isoyama
Kimichika Tsuchiya
Tatsuro Shioya
Shigeru Yamamoto
Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
Physical Review Special Topics. Accelerators and Beams
author_facet Shigeru Kashiwagi
Ryukou Kato
Akihito Mihara
Takanori Noda
Goro Isoyama
Kimichika Tsuchiya
Tatsuro Shioya
Shigeru Yamamoto
author_sort Shigeru Kashiwagi
title Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
title_short Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
title_full Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
title_fullStr Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
title_full_unstemmed Rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
title_sort rigorous evaluation of the edge-focusing wiggler based on the magnetic field measurement
publisher American Physical Society
series Physical Review Special Topics. Accelerators and Beams
issn 1098-4402
publishDate 2009-12-01
description The edge-focusing (EF) wiggler, which produces the strong field gradient for transverse focusing incorporated with the normal wiggler field, has been fabricated to evaluate its performance rigorously with the magnetic field measurement. It is a five-period planar wiggler with an edge angle of 2° and a period length of 60 mm. The magnetic field in the wiggler is measured using Hall probes at four different wiggler gaps. It is experimentally confirmed that a high field gradient of 1.0  T/m is realized, as designed, along the beam axis in the EF wiggler. The magnetic field gradient of the EF wiggler is derived as a function of the magnetic gap. The field gradient decreases with increasing magnet gap more slowly than the peak magnetic field does for the present experimental model. An analytic formula for the field gradient of the EF wiggler is derived and it is shown that the slope of the field gradient with the magnet gap can be changed by varying the magnet width of the EF wiggler.
url http://doi.org/10.1103/PhysRevSTAB.12.120703
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