Impact of the spatial laser distribution on photocathode gun operation
It is widely believed that a drive laser with uniform temporal and spatial laser profiles is required to generate the lowest emittance beam at the photoinjector. However, for a given 3 ps smooth-Gaussian laser temporal profile, our recent simulations indicate that a truncated-Gaussian laser spatial...
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American Physical Society
2012-09-01
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Series: | Physical Review Special Topics. Accelerators and Beams |
Online Access: | http://doi.org/10.1103/PhysRevSTAB.15.090701 |
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doaj-d5942f291b5c4f059d3b85a4e3e65cfc2020-11-25T02:40:29ZengAmerican Physical SocietyPhysical Review Special Topics. Accelerators and Beams1098-44022012-09-0115909070110.1103/PhysRevSTAB.15.090701Impact of the spatial laser distribution on photocathode gun operationFeng ZhouAxel BrachmannPaul EmmaSasha GilevichZhirong HuangIt is widely believed that a drive laser with uniform temporal and spatial laser profiles is required to generate the lowest emittance beam at the photoinjector. However, for a given 3 ps smooth-Gaussian laser temporal profile, our recent simulations indicate that a truncated-Gaussian laser spatial profile produces an electron beam with smaller emittance. The simulation results are qualitatively confirmed by later analytical calculation, and also confirmed by measurements: emittance reduction of ∼25% was observed at the linac coherent light source (LCLS) injector with a truncated-Gaussian laser spatial profile at the nominal operating bunch charge of 150 pC. There was a significant secondary benefit—laser transmission through the iris for the truncated-Gaussian profile was about twice that compared to the nearly uniform distribution, which significantly loosens the laser power and quantum efficiency requirements for drive laser system and photocathode. Since February 9, 2012, the drive laser with the truncated-Gaussian spatial distribution has been used for LCLS routine user operations and the corresponding free electron laser power is at least the same as the one when using the nearly uniform spatial profile.http://doi.org/10.1103/PhysRevSTAB.15.090701 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Feng Zhou Axel Brachmann Paul Emma Sasha Gilevich Zhirong Huang |
spellingShingle |
Feng Zhou Axel Brachmann Paul Emma Sasha Gilevich Zhirong Huang Impact of the spatial laser distribution on photocathode gun operation Physical Review Special Topics. Accelerators and Beams |
author_facet |
Feng Zhou Axel Brachmann Paul Emma Sasha Gilevich Zhirong Huang |
author_sort |
Feng Zhou |
title |
Impact of the spatial laser distribution on photocathode gun operation |
title_short |
Impact of the spatial laser distribution on photocathode gun operation |
title_full |
Impact of the spatial laser distribution on photocathode gun operation |
title_fullStr |
Impact of the spatial laser distribution on photocathode gun operation |
title_full_unstemmed |
Impact of the spatial laser distribution on photocathode gun operation |
title_sort |
impact of the spatial laser distribution on photocathode gun operation |
publisher |
American Physical Society |
series |
Physical Review Special Topics. Accelerators and Beams |
issn |
1098-4402 |
publishDate |
2012-09-01 |
description |
It is widely believed that a drive laser with uniform temporal and spatial laser profiles is required to generate the lowest emittance beam at the photoinjector. However, for a given 3 ps smooth-Gaussian laser temporal profile, our recent simulations indicate that a truncated-Gaussian laser spatial profile produces an electron beam with smaller emittance. The simulation results are qualitatively confirmed by later analytical calculation, and also confirmed by measurements: emittance reduction of ∼25% was observed at the linac coherent light source (LCLS) injector with a truncated-Gaussian laser spatial profile at the nominal operating bunch charge of 150 pC. There was a significant secondary benefit—laser transmission through the iris for the truncated-Gaussian profile was about twice that compared to the nearly uniform distribution, which significantly loosens the laser power and quantum efficiency requirements for drive laser system and photocathode. Since February 9, 2012, the drive laser with the truncated-Gaussian spatial distribution has been used for LCLS routine user operations and the corresponding free electron laser power is at least the same as the one when using the nearly uniform spatial profile. |
url |
http://doi.org/10.1103/PhysRevSTAB.15.090701 |
work_keys_str_mv |
AT fengzhou impactofthespatiallaserdistributiononphotocathodegunoperation AT axelbrachmann impactofthespatiallaserdistributiononphotocathodegunoperation AT paulemma impactofthespatiallaserdistributiononphotocathodegunoperation AT sashagilevich impactofthespatiallaserdistributiononphotocathodegunoperation AT zhironghuang impactofthespatiallaserdistributiononphotocathodegunoperation |
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