Scitation |
AIP Journals |
Purchasing Info |
Librarians |
Alerts |
Top 20 Articles |
Contact |
Help |
Exit
Electron Amplification in Diamond
We report on recent progress toward development of secondary emission “amplifiers” for photocathodes. Secondary emission gain of over 300 has been achieved in transmission mode and emissio...
We report on recent progress toward development of secondary emission “amplifiers” for photocathodes. Secondary emission gain of over 300 has been achieved in transmission mode and emissio...
Beam Injection and Matching Studies at the University of Maryland Electron Ring (UMER)
The University of Maryland Electron Ring (UMER) is a scaled model to investigate the physics of such intense beams. It uses a 10-keV electron beam along with other scaled beam parameters that model th...
The University of Maryland Electron Ring (UMER) is a scaled model to investigate the physics of such intense beams. It uses a 10-keV electron beam along with other scaled beam parameters that model th...
Phase Space Tomography: A Simple, Portable and Accurate Technique to Map Phase Spaces of Beams with Space Charge
AIP Conf. Proc. -- November 27, 2006 -- Volume 877, pp. 680-686
ADVANCED ACCELERATOR CONCEPTS: 12th Advanced Accelerator Concepts Workshop;
doi:10.1063/1.2409201
Issue Date: 27 November 2006
You are not logged in. Log in
D. Stratakis,* R. A. Kishek,* H. Li,![[dagger]](http://scitation.aip.org/stockgif3/dagger-script.gif)
S. Bernal,* M. Walter,* I. Haber,* R. Fiorito,* J. C. T. Thangaraj,* B. Quinn,* M. Reiser,* and P. G. O'Shea*
*Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, Maryland 20742
Microsoft Corp., Redmond, WA 98052
S. Bernal,* M. Walter,* I. Haber,* R. Fiorito,* J. C. T. Thangaraj,* B. Quinn,* M. Reiser,* and P. G. O'Shea**Institute for Research in Electronics and Applied Physics, University of Maryland, College Park, Maryland 20742
Microsoft Corp., Redmond, WA 98052
In order to understand the charged particle dynamics, e.g. the halo formation, emittance growth, x-y energy transfer and coupling, knowledge of the actual phase space is needed. Other the past decade there is an increasing number of articles who use tomography to map the beam phase space and measure the beam emittance. These studies where performed at high energy facilities where the effect of space charge was neglible and therefore not considered in the analysis. This work extends the tomography technique to beams with space charge. In order to simplify the analysis linear forces where assumed. By carefully modeling the tomography process using the particle-in-cell code WARP we test the validity of our assumptions and the accuracy of the reconstructed phase space. Finally, we report experimental results of phase space mapping at the University of Maryland Electron Ring (UMER) using tomography. ©2006 American Institute of Physics
| Permalink: |
http://link.aip.org/link/?APCPCS/877/680/1 |
| BUY THIS ARTICLE | (US$28) |
|
|
Connotea
CiteULike
del.icio.us
BibSonomy
KEYWORDS and PACS
PUBLICATION DATA
0094-243X (print)
AIP
There are no references.
