Beam loading by distributed injection of electrons in a plasma wakefield accelerator

N. Vafaei-Najafabadi; K. A. Marsh; C. E. Clayton; W. An; W. B. Mori; C. Joshi; W. Lu; E. Adli; S. Corde; M. Litos; S. Li; S. Gessner; J. Frederico; A. S. Fisher; Z. Wu; D. Walz; R. J. England; J. P. Delahaye; C. I. Clarke; M. J. Hogan; P. Muggli

doi:10.1103/PhysRevLett.112.025001

Beam loading by distributed injection of electrons in a plasma wakefield accelerator

N. Vafaei-Najafabadi
, K. A. Marsh
, C. E. Clayton
, W. An
, W. B. Mori
, C. Joshi
, W. Lu
, E. Adli
, S. Corde
, M. Litos
, S. Li
, S. Gessner
, J. Frederico
, A. S. Fisher
, Z. Wu
, D. Walz
, R. J. England
, J. P. Delahaye
, C. I. Clarke
, M. J. Hogan

P. Muggli

University of California, Los Angeles
Tsinghua University
Stanford Linear Accelerator Center
University of Oslo
Max-Planck-Institut für Physik

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We show through experiments and supporting simulations that propagation of a highly relativistic and dense electron bunch through a plasma can lead to distributed injection of electrons, which depletes the accelerating field, i.e., beam loads the wake. The source of the injected electrons is ionization of the second electron of rubidium (Rb II) within the wake. This injection of excess charge is large enough to severely beam load the wake, and thereby reduce the transformer ratio T. The reduction of the average T with increasing beam loading is quantified for the first time by measuring the ratio of peak energy gain and loss of electrons while changing the beam emittance. Simulations show that beam loading by Rb II electrons contributes to the reduction of the peak accelerating field from its weakly loaded value of 43 GV/m to a strongly loaded value of 26 GV/m.

langue originale	Anglais
Numéro d'article	025001
journal	Physical Review Letters
Volume	112
Numéro de publication	2
Les DOIs	https://doi.org/10.1103/PhysRevLett.112.025001
état	Publié - 15 janv. 2014
Modification externe	Oui

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10.1103/PhysRevLett.112.025001

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Vafaei-Najafabadi, N., Marsh, K. A., Clayton, C. E., An, W., Mori, W. B., Joshi, C., Lu, W., Adli, E., Corde, S., Litos, M., Li, S., Gessner, S., Frederico, J., Fisher, A. S., Wu, Z., Walz, D., England, R. J., Delahaye, J. P., Clarke, C. I., ... Muggli, P. (2014). Beam loading by distributed injection of electrons in a plasma wakefield accelerator. Physical Review Letters, 112(2), Article 025001. https://doi.org/10.1103/PhysRevLett.112.025001

@article{8d9e8b3f28c94d76825028886fc073ea,

title = "Beam loading by distributed injection of electrons in a plasma wakefield accelerator",

abstract = "We show through experiments and supporting simulations that propagation of a highly relativistic and dense electron bunch through a plasma can lead to distributed injection of electrons, which depletes the accelerating field, i.e., beam loads the wake. The source of the injected electrons is ionization of the second electron of rubidium (Rb II) within the wake. This injection of excess charge is large enough to severely beam load the wake, and thereby reduce the transformer ratio T. The reduction of the average T with increasing beam loading is quantified for the first time by measuring the ratio of peak energy gain and loss of electrons while changing the beam emittance. Simulations show that beam loading by Rb II electrons contributes to the reduction of the peak accelerating field from its weakly loaded value of 43 GV/m to a strongly loaded value of 26 GV/m.",

author = "N. Vafaei-Najafabadi and Marsh, \{K. A.\} and Clayton, \{C. E.\} and W. An and Mori, \{W. B.\} and C. Joshi and W. Lu and E. Adli and S. Corde and M. Litos and S. Li and S. Gessner and J. Frederico and Fisher, \{A. S.\} and Z. Wu and D. Walz and England, \{R. J.\} and Delahaye, \{J. P.\} and Clarke, \{C. I.\} and Hogan, \{M. J.\} and P. Muggli",

year = "2014",

month = jan,

day = "15",

doi = "10.1103/PhysRevLett.112.025001",

language = "English",

volume = "112",

journal = "Physical Review Letters",

issn = "0031-9007",

number = "2",

}

Vafaei-Najafabadi, N, Marsh, KA, Clayton, CE, An, W, Mori, WB, Joshi, C, Lu, W, Adli, E, Corde, S, Litos, M, Li, S, Gessner, S, Frederico, J, Fisher, AS, Wu, Z, Walz, D, England, RJ, Delahaye, JP, Clarke, CI, Hogan, MJ & Muggli, P 2014, 'Beam loading by distributed injection of electrons in a plasma wakefield accelerator', Physical Review Letters, VOL. 112, Numéro 2, 025001. https://doi.org/10.1103/PhysRevLett.112.025001

TY - JOUR

T1 - Beam loading by distributed injection of electrons in a plasma wakefield accelerator

AU - Vafaei-Najafabadi, N.

AU - Marsh, K. A.

AU - Clayton, C. E.

AU - An, W.

AU - Mori, W. B.

AU - Joshi, C.

AU - Lu, W.

AU - Adli, E.

AU - Corde, S.

AU - Litos, M.

AU - Li, S.

AU - Gessner, S.

AU - Frederico, J.

AU - Fisher, A. S.

AU - Wu, Z.

AU - Walz, D.

AU - England, R. J.

AU - Delahaye, J. P.

AU - Clarke, C. I.

AU - Hogan, M. J.

AU - Muggli, P.

PY - 2014/1/15

Y1 - 2014/1/15

N2 - We show through experiments and supporting simulations that propagation of a highly relativistic and dense electron bunch through a plasma can lead to distributed injection of electrons, which depletes the accelerating field, i.e., beam loads the wake. The source of the injected electrons is ionization of the second electron of rubidium (Rb II) within the wake. This injection of excess charge is large enough to severely beam load the wake, and thereby reduce the transformer ratio T. The reduction of the average T with increasing beam loading is quantified for the first time by measuring the ratio of peak energy gain and loss of electrons while changing the beam emittance. Simulations show that beam loading by Rb II electrons contributes to the reduction of the peak accelerating field from its weakly loaded value of 43 GV/m to a strongly loaded value of 26 GV/m.

AB - We show through experiments and supporting simulations that propagation of a highly relativistic and dense electron bunch through a plasma can lead to distributed injection of electrons, which depletes the accelerating field, i.e., beam loads the wake. The source of the injected electrons is ionization of the second electron of rubidium (Rb II) within the wake. This injection of excess charge is large enough to severely beam load the wake, and thereby reduce the transformer ratio T. The reduction of the average T with increasing beam loading is quantified for the first time by measuring the ratio of peak energy gain and loss of electrons while changing the beam emittance. Simulations show that beam loading by Rb II electrons contributes to the reduction of the peak accelerating field from its weakly loaded value of 43 GV/m to a strongly loaded value of 26 GV/m.

U2 - 10.1103/PhysRevLett.112.025001

DO - 10.1103/PhysRevLett.112.025001

M3 - Article

AN - SCOPUS:84892609636

SN - 0031-9007

VL - 112

JO - Physical Review Letters

JF - Physical Review Letters

IS - 2

M1 - 025001

ER -

Beam loading by distributed injection of electrons in a plasma wakefield accelerator

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