EuPRAXIA Conceptual Design Report
R.W. ASSMANN
1
,
M K Weikum
1
,
T. Akhter
2
,
D. Alesini
3
,
A S Alexandrova
4, 5
,
M. P. Anania
3
,
N. E. ANDREEV
6, 7
,
I Andriyash
8
,
M. Artioli
9
,
A. Aschikhin
1
,
T. Audet
10
,
A. Bacci
11
,
I F Barna
12
,
S. Bartocci
13
,
A. Bayramian
14
,
A. Beaton
4, 15
,
A. Beck
16
,
M. BELLAVEGLIA
3
,
A Beluze
17
,
A. Bernhard
18
,
A. Biagioni
3
,
S. Bielawski
19
,
F G Bisesto
3
,
A Bonatto
4, 20
,
L. Boulton
4, 15
,
F. Brandi
21
,
R. BRINKMANN
1
,
F. Briquez
22
,
F Brottier
23
,
E Bründermann
18
,
M Buscher
24
,
B. Buonomo
3
,
M H Bussmann
25, 26
,
G Bussolino
21
,
P. Campana
3
,
S Cantarella
3
,
K. Cassou
27
,
A. Chancé
28
,
M. Chen
29
,
E. CHIADRONI
3
,
A. CIANCHI
30, 31
,
F Cioeta
3
,
J A Clarke
4, 32
,
J. M. Cole
33
,
G. Costa
3
,
M. E. COUPRIE
22
,
J Cowley
34
,
M. Croia
3
,
B. CROS
10
,
P A Crump
35
,
R. D’Arcy
1
,
G. DATTOLI
36
,
A. Del Dotto
3
,
N. Delerue
27
,
M. Del Franco
3
,
P. Delinikolas
4, 15
,
S. DE NICOLA
2, 37
,
J. M. DIAS
38
,
D. Di Giovenale
3
,
M. Diomede
3
,
E. Di Pasquale
3
,
G. Di Pirro
3
,
G Di Raddo
3
,
U. Dorda
1
,
A. C. Erlandson
14
,
K. Ertel
39
,
A. Esposito
3
,
F. Falcoz
40
,
A. Falone
3
,
R. Fedele
2, 41
,
A. Ferran Pousa
1, 42
,
M. Ferrario
3
,
F Filippi
3, 43
,
J. Fils
44
,
G. Fiore
2, 41
,
R. Fiorito
4, 5
,
R. A. FONSECA
38
,
G Franzini
3
,
M. Galimberti
39
,
A Gallo
3
,
T C Galvin
14
,
A. Ghaith
22
,
A. Ghigo
3
,
D Giove
11
,
A. Giribono
3
,
L. A. GIZZI
21, 45
,
F. J. Grüner
42, 46
,
A. F. Habib
4, 15
,
C Haefner
14
,
T. Heinemann
1, 4, 15, 42
,
A. HELM
38
,
B. Hidding
4, 15
,
B J Holzer
47
,
S.M Hooker
34
,
T. HOSOKAI
48
,
M Hubner
35
,
M. Ibison
4, 5
,
S Incremona
3
,
A. Irman
25
,
F Iungo
3
,
F J Jafarinia
1
,
O JAKOBSSON
20
,
D.A Jaroszynski
15
,
S Jaster Merz
1
,
C. JOSHI
49
,
M Kaluža
50, 51
,
M. Kando
52
,
O. S. Karger
42
,
S. Karsch
53
,
E. Khazanov
54
,
D Khikhlukha
55
,
M Kirchen
1, 46
,
G. Kirwan
4, 15
,
C. Kitegi
22
,
A. Knetsch
1
,
D Kocon
55
,
P. KOESTER
21
,
O S Kononenko
56
,
G. Korn
55
,
I Kostyukov
54
,
K O Kruchinin
55
,
L. LABATE
21, 45
,
C Le Blanc
17
,
C. LECHNER
1
,
P. Lee
10
,
W. Leemans
1
,
A. LEHRACH
24
,
X. Li
57
,
Y Li
20
,
V. Libov
42
,
A. Lifschitz
56
,
C A Lindstrøm
1
,
V. Litvinenko
58, 59
,
W. Lu
60
,
O. Lundh
61
,
A. R. Maier
42, 46
,
V. MALKA
8
,
G. G. Manahan
15
,
S.P.D Mangles
33
,
A. MARCELLI
3
,
B. Marchetti
1
,
O. Marcouillé
22
,
A. Marocchino
3
,
F. Marteau
22
,
A. Martinez de la Ossa
1
,
J. L. Martins
38
,
P. D. MASON
39
,
F. Massimo
16
,
F. Mathieu
17
,
G Maynard
10
,
Z. Mazzotta
62
,
S. Mironov
54
,
A Y Molodozhentsev
55
,
S. MORANTE
30
,
A. Mosnier
28
,
A. Mostacci
63, 64
,
A.-S. Müller
18
,
C.D Murphy
65
,
Z Najmudin
33
,
P. A. P. Nghiem
28
,
F Nguyen
36
,
P. Niknejadi
1
,
A. Nutter
4, 15
,
J. Osterhoff
1
,
D Oumbarek Espinos
22
,
J.-L. Paillard
17
,
D.N. Papadopoulos
17
,
B Patrizi
66
,
R. Pattathil
32
,
L. Pellegrino
3
,
A. Petralia
36
,
V. PETRILLO
11, 67
,
L. Piersanti
3
,
M A Pocsai
12, 68
,
K Poder
1, 33
,
R. Pompili
3
,
L. Pribyl
55
,
D Pugacheva
6, 7
,
B. A. Reagan
14
,
J. Resta-López
4, 5
,
R. Ricci
3
,
S. Romeo
3
,
M Rossetti Conti
11
,
A R Rossi
11
,
R. Rossmanith
1
,
U. Rotundo
3
,
E. Roussel
19
,
L. Sabbatini
3
,
P. Santangelo
3
,
G. Sarri
69
,
L. Schaper
1
,
P. Scherkl
4, 15
,
U. Schramm
25
,
C B. Schroeder
70
,
J. Scifo
3
,
L. SERAFINI
11
,
G. SHARMA
71
,
Z.-M. Sheng
15, 29
,
V. Shpakov
3
,
C. W. Siders
14
,
L. O. SILVA
38
,
T Silva
38
,
C. SIMON
28
,
C. Simon-Boisson
72
,
U. SINHA
38
,
E. Sistrunk
14
,
A. Specka
16
,
T M Spinka
14
,
A. Stecchi
3
,
A. Stella
3
,
F. Stellato
30, 31
,
M. J. V. Streeter
33
,
A. Sutherland
4, 15
,
E N Svystun
1
,
D. Symes
39
,
C. Szwaj
19
,
G E Tauscher
1
,
D Terzani
2, 41
,
G Toci
66
,
P. TOMASSINI
21
,
R. Torres
4, 5
,
D Ullmann
4, 15
,
C. Vaccarezza
3
,
M. Valléau
22
,
M. Vannini
66
,
A. VANNOZZI
3
,
S Vescovi
3
,
J.-M. Vieira
38
,
F. VILLA
3
,
C.-G. Wahlström
61
,
R. Walczak
34
,
P.A. Walker
1
,
K. Wang
27
,
A Welsch
4, 5
,
C. P. Welsch
4, 5
,
S M Weng
29
,
S.M Wiggins
4, 15
,
J. Wolfenden
4, 5
,
G. Xia
4, 20
,
M. Yabashi
73
,
H. Zhang
4, 5
,
Y. Zhao
4, 20
,
J Zhu
1
,
A. Zigler
74
1
Deutsches Elektronensynchrotron – Hamburg, Hamburg, Germany
|
4
Cockcroft Institute, Warrington, UK
|
22
Synchrotron SOLEIL, Gif-Sur-Yvette, France
|
23
Europportunities OÜ, Tallinn, Estonia
|
26
Center for Advanced Systems Understanding (CASUS), Görlitz, Germany
|
27
31
37
SPIN-CNR, Complesso Universitario di M.S. Angelo, Napoli, Italy
|
40
Amplitude Technologies, Evry, France
|
51
Institut für Optik und Quantenelektronik, Jena, Germany
|
52
KPSI-QST, Kyoto, Japan
|
55
ELI-Beamlines, Dolni Brezany, Czech Republic
|
56
LOA, ENSTA-CNRS-École Polytechnique UMR 7639, Palaiseau, France
|
57
Deutsches Elektronensynchrotron – Zeuthen, Zeuthen, Germany
|
72
Thales Laser S.A., Orsay, France
|
Publication type: Journal Article
Publication date: 2020-12-27
scimago Q2
wos Q2
SJR: 0.447
CiteScore: 6.0
Impact factor: 2.3
ISSN: 19516355, 19516401
Physical and Theoretical Chemistry
General Physics and Astronomy
General Materials Science
Abstract
This report presents the conceptual design of a new European research infrastructure EuPRAXIA. The concept has been established over the last four years in a unique collaboration of 41 laboratories within a Horizon 2020 design study funded by the European Union. EuPRAXIA is the first European project that develops a dedicated particle accelerator research infrastructure based on novel plasma acceleration concepts and laser technology. It focuses on the development of electron accelerators and underlying technologies, their user communities, and the exploitation of existing accelerator infrastructures in Europe. EuPRAXIA has involved, amongst others, the international laser community and industry to build links and bridges with accelerator science — through realising synergies, identifying disruptive ideas, innovating, and fostering knowledge exchange. The Eu-PRAXIA project aims at the construction of an innovative electron accelerator using laser- and electron-beam-driven plasma wakefield acceleration that offers a significant reduction in size and possible savings in cost over current state-of-the-art radiofrequency-based accelerators. The foreseen electron energy range of one to five gigaelectronvolts (GeV) and its performance goals will enable versatile applications in various domains, e.g. as a compact free-electron laser (FEL), compact sources for medical imaging and positron generation, table-top test beams for particle detectors, as well as deeply penetrating X-ray and gamma-ray sources for material testing. EuPRAXIA is designed to be the required stepping stone to possible future plasma-based facilities, such as linear colliders at the high-energy physics (HEP) energy frontier. Consistent with a high-confidence approach, the project includes measures to retire risk by establishing scaled technology demonstrators. This report includes preliminary models for project implementation, cost and schedule that would allow operation of the full Eu-PRAXIA facility within 8—10 years.
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114
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Citations from 2024:
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ASSMANN R. et al. EuPRAXIA Conceptual Design Report // European Physical Journal: Special Topics. 2020. Vol. 229. No. 24. pp. 3675-4284.
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ASSMANN R. et al. EuPRAXIA Conceptual Design Report // European Physical Journal: Special Topics. 2020. Vol. 229. No. 24. pp. 3675-4284.
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@article{2020_ASSMANN,
author = {R.W. ASSMANN and M K Weikum and T. Akhter and D. Alesini and A S Alexandrova and M. P. Anania and N. E. ANDREEV and I Andriyash and M. Artioli and A. Aschikhin and T. Audet and A. Bacci and I F Barna and S. Bartocci and A. Bayramian and A. Beaton and A. Beck and M. BELLAVEGLIA and A Beluze and A. Bernhard and A. Biagioni and S. Bielawski and F G Bisesto and A Bonatto and L. Boulton and F. Brandi and R. BRINKMANN and F. Briquez and F Brottier and E Bründermann and M Buscher and B. Buonomo and M H Bussmann and G Bussolino and P. Campana and S Cantarella and K. Cassou and A. Chancé and M. Chen and E. CHIADRONI and A. CIANCHI and F Cioeta and J A Clarke and J. M. Cole and G. Costa and M. E. COUPRIE and J Cowley and M. Croia and B. CROS and P A Crump and others},
title = {EuPRAXIA Conceptual Design Report},
journal = {European Physical Journal: Special Topics},
year = {2020},
volume = {229},
publisher = {Springer Nature},
month = {dec},
url = {https://doi.org/10.1140/epjst/e2020-000127-8},
number = {24},
pages = {3675--4284},
doi = {10.1140/epjst/e2020-000127-8}
}
Cite this
MLA
Copy
ASSMANN, R.W., et al. “EuPRAXIA Conceptual Design Report.” European Physical Journal: Special Topics, vol. 229, no. 24, Dec. 2020, pp. 3675-4284. https://doi.org/10.1140/epjst/e2020-000127-8.