Home > Publications database > Energy Compression and Stabilization of Laser-Plasma Accelerators > print

001     482221
005     20230214113101.0
024 7 _ |a Pousa:2021sua
|2 INSPIRETeX
024 7 _ |a inspire:1867540
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024 7 _ |a arXiv:2106.04177
|2 arXiv
024 7 _ |a 10.3204/PUBDB-2022-04684
|2 datacite_doi
037 _ _ |a PUBDB-2022-04684
041 _ _ |a English
082 _ _ |a 530
088 _ _ |a arXiv:2106.04177
|2 arXiv
088 _ _ |a DESY-21-088
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100 1 _ |a Ferran Pousa, Angel
|0 P:(DE-H253)PIP1028679
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|e Corresponding author
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245 _ _ |a Energy Compression and Stabilization of Laser-Plasma Accelerators
260 _ _ |c 2022
336 7 _ |a Preprint
|b preprint
|m preprint
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|s 1664958650_2370
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336 7 _ |a WORKING_PAPER
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336 7 _ |a Electronic Article
|0 28
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336 7 _ |a preprint
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336 7 _ |a ARTICLE
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336 7 _ |a Output Types/Working Paper
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500 _ _ |a publication approved by Wim Leemans on June 4, 2021 via email to Maren Stein ( see: https://bib-pubdb1.desy.de/record/459368/ )
520 _ _ |a Laser-plasma accelerators outperform current radio frequency technology in acceleration strength by orders of magnitude. Yet, enabling them to deliver competitive beam quality for demanding applications, particularly in terms of energy spread and stability, remains a major challenge. In this Letter, we propose to combine bunch decompression and active plasma dechirping for drastically improving the energy profile and stability of beams from laser-plasma accelerators. Realistic start-to-end simulations demonstrate the potential of these postacceleration phase-space manipulations for simultaneously reducing an initial energy spread and energy jitter of ∼1–2% to ≲0.1%, closing the beam-quality gap to conventional acceleration schemes.
536 _ _ |a 621 - Accelerator Research and Development (POF4-621)
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588 _ _ |a Dataset connected to CrossRef, INSPIRE, Journals: bib-pubdb1.desy.de
650 _ 7 |a beam: stability
|2 INSPIRE
650 _ 7 |a accelerator: plasma
|2 INSPIRE
650 _ 7 |a quality
|2 INSPIRE
650 _ 7 |a beam: energy spectrum
|2 INSPIRE
650 _ 7 |a beam: phase space
|2 INSPIRE
650 _ 7 |a bunching
|2 INSPIRE
650 _ 7 |a numerical calculations
|2 INSPIRE
693 _ _ |0 EXP:(DE-MLZ)NOSPEC-20140101
|5 EXP:(DE-MLZ)NOSPEC-20140101
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700 1 _ |a Agapov, I.
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700 1 _ |a Antipov, S. A.
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700 1 _ |a Assmann, R. W.
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700 1 _ |a Brinkmann, R.
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700 1 _ |a Jalas, S.
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700 1 _ |a Kirchen, M.
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700 1 _ |a Leemans, W. P.
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700 1 _ |a Maier, Andreas
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700 1 _ |a Martinez de la Ossa, A.
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700 1 _ |a Osterhoff, J.
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700 1 _ |a Thévenet, M.
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856 4 _ |y OpenAccess
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856 4 _ |y OpenAccess
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910 1 _ |a Deutsches Elektronen-Synchrotron
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913 1 _ |a DE-HGF
|b Forschungsbereich Materie
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|v Accelerator Research and Development
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914 1 _ |y 2022
915 _ _ |a OpenAccess
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915 _ _ |a Published
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920 1 _ |0 I:(DE-H253)MPY-20120731
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920 1 _ |0 I:(DE-H253)MLS-20210107
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980 _ _ |a preprint
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980 _ _ |a UNRESTRICTED
980 _ _ |a I:(DE-H253)MPY-20120731
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980 1 _ |a FullTexts

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