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Slice energy spread measurement in the low energy photoinjector

Slice energy spread is one of the key parameters in free electron laser optimizations, but its accurate measurement is not straightforward. Two recent studies from high energy ($>$100 MeV) photoinjectors at SwissFEL and European XFEL have reported much higher slice energy spread than expected at their XFEL working points (200 - 250 pC). In this paper, a new method for measuring slice energy spread at a lower beam energy ($\sim$20 MeV) is proposed and demonstrated at the PhotoInjector Test facility at DESY Zeuthen (PITZ), and the results for 250 pC and 500 pC are much lower than those measured at high energy injectors.

preprint2022arXivOpen access
Houjun QianMikhail KrasilnikovAnusorn LueangaramwongXiangkun LiOsip LishilinZakaria AboulbanineGowri AdhikariNamra AftabPrach BoonpornprasertGeorgi GeorgievJames GoodMatthias GrossChristian KoschitzkiRaffael NiemczykAnne OppeltGuan ShuFrank StephanGrygorii VashchenkoTobias Weilbach
physics.acc-ph
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Open access19 authors1 topic
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Houjun QianMikhail KrasilnikovAnusorn LueangaramwongXiangkun LiOsip LishilinZakaria AboulbanineGowri AdhikariNamra AftabPrach BoonpornprasertGeorgi GeorgievJames GoodMatthias GrossChristian KoschitzkiRaffael NiemczykAnne OppeltGuan ShuFrank StephanGrygorii VashchenkoTobias Weilbach

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