P Muggli
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Explore the profile of P Muggli including associated specialties, affiliations and a list of published articles.
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Articles
37
Citations
119
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Recent Articles
1.
Verra L, Amoedo C, Torrado N, Clairembaud A, Mezger J, Pannell F, et al.
Phys Rev E
. 2024 Jun;
109(5-2):055203.
PMID: 38907424
We show in experiments that a long, underdense, relativistic proton bunch propagating in plasma undergoes the oblique instability, which we observe as filamentation. We determine a threshold value for the...
2.
Nechaeva T, Verra L, Pucek J, Ranc L, Bergamaschi M, Zevi Della Porta G, et al.
Phys Rev Lett
. 2024 Mar;
132(7):075001.
PMID: 38427892
Experimental results show that hosing of a long particle bunch in plasma can be induced by wakefields driven by a short, misaligned preceding bunch. Hosing develops in the plane of...
3.
Verra L, Zevi Della Porta G, Pucek J, Nechaeva T, Wyler S, Bergamaschi M, et al.
Phys Rev Lett
. 2022 Jul;
129(2):024802.
PMID: 35867433
A long, narrow, relativistic charged particle bunch propagating in plasma is subject to the self-modulation (SM) instability. We show that SM of a proton bunch can be seeded by the...
4.
Transition between Instability and Seeded Self-Modulation of a Relativistic Particle Bunch in Plasma
Batsch F, Muggli P, Agnello R, Ahdida C, Amoedo Goncalves M, Andrebe Y, et al.
Phys Rev Lett
. 2021 May;
126(16):164802.
PMID: 33961468
We use a relativistic ionization front to provide various initial transverse wakefield amplitudes for the self-modulation of a long proton bunch in plasma. We show experimentally that, with sufficient initial...
5.
Braunmuller F, Nechaeva T, Adli E, Agnello R, Aladi M, Andrebe Y, et al.
Phys Rev Lett
. 2021 Jan;
125(26):264801.
PMID: 33449727
We study experimentally the effect of linear plasma density gradients on the self-modulation of a 400 GeV proton bunch. Results show that a positive or negative gradient increases or decreases...
6.
Gschwendtner E, Turner M, Adli E, Ahuja A, Apsimon O, Apsimon R, et al.
Philos Trans A Math Phys Eng Sci
. 2019 Dec;
378(2164):20190539.
PMID: 31865874
No abstract available.
7.
Hidding B, Foster B, Hogan M, Muggli P, Rosenzweig J
Philos Trans A Math Phys Eng Sci
. 2019 Jun;
377(2151):20190215.
PMID: 31230575
This introductory article is a synopsis of the status and prospects of particle-beam-driven plasma wakefield acceleration (PWFA). Conceptual and experimental breakthroughs obtained over the last years have initiated a rapid...
8.
Gschwendtner E, Turner M, Adli E, Ahuja A, Apsimon O, Apsimon R, et al.
Philos Trans A Math Phys Eng Sci
. 2019 Jun;
377(2151):20180418.
PMID: 31230571
In this article, we briefly summarize the experiments performed during the first run of the Advanced Wakefield Experiment, AWAKE, at CERN (European Organization for Nuclear Research). The final goal of...
9.
Turner M, Adli E, Ahuja A, Apsimon O, Apsimon R, Bachmann A, et al.
Phys Rev Lett
. 2019 Mar;
122(5):054801.
PMID: 30822039
We measure the effects of transverse wakefields driven by a relativistic proton bunch in plasma with densities of 2.1×10^{14} and 7.7×10^{14} electrons/cm^{3}. We show that these wakefields periodically defocus the...
10.
Adli E, Ahuja A, Apsimon O, Apsimon R, Bachmann A, Barrientos D, et al.
Phys Rev Lett
. 2019 Mar;
122(5):054802.
PMID: 30822008
We give direct experimental evidence for the observation of the full transverse self-modulation of a long, relativistic proton bunch propagating through a dense plasma. The bunch exits the plasma with...