A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator
W. Decking
1
,
S. Abeghyan
2
,
P Abramian
3
,
A Abramsky
4
,
A Aguirre
5
,
C Albrecht
1
,
P Alou
5
,
M. Altarelli
2
,
P. Altmann
1
,
K Amyan
1
,
V Anashin
4
,
E Apostolov
6
,
K APPEL
2
,
D Auguste
7
,
V. Ayvazyan
1
,
S Baark
1
,
F Babies
2
,
N. Baboi
1
,
P. Bak
4
,
V. Balandin
1
,
R. BALDINGER
8
,
B Baranasic
2
,
S. Barbanotti
1
,
O. Belikov
4
,
V. Belokurov
1
,
L. BELOVA
4
,
V Belyakov
9
,
S. Berry
10
,
M. Bertucci
11
,
B. Beutner
1
,
A. Block
1
,
M Blöcher
1
,
T Böckmann
1
,
C. Bohm
12
,
M. Bohnert
1
,
V. Bondar
2
,
E. Bondarchuk
9
,
M Bonezzi
11
,
P Borowiec
13
,
C. Bosch
1
,
U Bösenberg
2
,
A. Bosotti
11
,
R Böspflug
1
,
M. Bousonville
1
,
E. BOYD
2
,
Y. Bozhko
1
,
A. Brand
1
,
J. Branlard
1
,
S. Briechle
1
,
F. Brinker
1
,
S Brinker
1
,
R. BRINKMANN
1
,
S. Brockhauser
2
,
O. Brovko
14
,
H Brück
1
,
A Brüdgam
1
,
L Butkowski
1
,
T Büttner
1
,
J Calero
3
,
E Castro Carballo
1
,
G Cattalanotto
5
,
J Charrier
10
,
J Chen
11
,
A Cherepenko
1
,
V Cheskidov
4
,
M Chiodini
11
,
A. Chong
1
,
S. Choroba
1
,
M. Chorowski
15
,
D Churanov
16
,
W Cichalewski
17
,
M. Clausen
1
,
W Clement
1
,
C Cloué
10
,
J. A. COBOS
5
,
N. Coppola
2
,
S. Cunis
2
,
K Czuba
18
,
M Czwalinna
1
,
B. D’Almagne
7
,
J Dammann
1
,
H. Danared
12
,
A De Zubiaurre Wagner
1
,
A Delfs
1
,
T Delfs
1
,
F Dietrich
2
,
T. Dietrich
1
,
M Dohlus
1
,
M. Dommach
2
,
A DONAT
1
,
X. DONG
2
,
N Doynikov
9
,
M. Dressel
1
,
M. Duda
19
,
P. DUDA
15
,
H Eckoldt
1
,
W Ehsan
2
,
J. Eidam
2
,
F Eints
1
,
C Engling
1
,
U. Englisch
2
,
A. Ermakov
1
,
K. Escherich
1
,
J. Eschke
1
,
E. SALDIN
1
,
M Faesing
1
,
A. Fallou
7
,
M Felber
1
,
M. Fenner
1
,
B Fernandes
2
,
J. M. Fernandez
5
,
S Feuker
1
,
K Filippakopoulos
2
,
K Floettmann
1
,
V. Fogel
1
,
M. Fontaine
10
,
A Frances
5
,
I Freijo Martin
2
,
W. Freund
2
,
T Freyermuth
2
,
M. Friedland
1
,
L. Fröhlich
1
,
M Fusetti
11
,
J Fydrych
15
,
A. Gallas
7
,
O. GARCÍA
5
,
L. García-Tabares
3
,
G GELONI
2
,
N. Gerasimova
2
,
C Gerth
1
,
P Geßler
2
,
V. Gharibyan
1
,
M. Gloor
8
,
J Głowinkowski
20
,
A. Goessel
1
,
Z. Gołębiewski
21
,
N. Golubeva
1
,
W. GRABOWSKI
21
,
W GRAEFF
2
,
A. Grebentsov
14
,
M Grecki
1
,
T Grevsmuehl
1
,
M Gross
1
,
U Grosse Wortmann
1
,
J Grünert
2
,
S. Grunewald
1
,
P. Grzegory
22
,
G. Feng
1
,
H. Guler
7
,
G Gusev
4
,
J.L. Gutierrez
3
,
L Hagge
1
,
M. Hamberg
23
,
R Hanneken
1
,
Harms E.
24
,
I. Hartl
1
,
A Hauberg
1
,
S. Hauf
2
,
J Hauschildt
1
,
J. Hauser
1
,
J. Havlíček
1
,
A Hedqvist
12
,
N Heidbrook
1
,
F. Hellberg
12
,
D. Henning
1
,
O. Hensler
1
,
T. Hermann
1
,
A. Hidvegi
12
,
M. Hierholzer
1
,
H Hintz
1
,
F. Hoffmann
1
,
Markus Hoffmann
1
,
Matthias Hoffmann
1
,
Y Höller
1
,
M. Hüning
1
,
A. Ignatenko
1
,
M Ilchen
2
,
A Iluk
15
,
J Iversen
1
,
M. Izquierdo
2
,
L. Jachmann
1
,
N Jardon
2
,
U. Jastrow
1
,
K. Jensch
1
,
J. Jensen
1
,
M. Jezabek
19
,
M Jidda
2
,
H. Jin
1
,
N. JOHANSSON
23
,
R Jonas
1
,
W Kaabi
7
,
D Kaefer
1
,
R Kammering
1
,
H. Kapitza
1
,
S. Karabekyan
2
,
S. Karstensen
1
,
K Kasprzak
19
,
V. Katalev
1
,
D Keese
1
,
B Keil
8
,
M Kholopov
4
,
M Killenberger
1
,
B. Kitaev
9
,
Y Klimchenko
9
,
R Klos
1
,
L. Knebel
1
,
A Koch
2
,
M Koepke
1
,
S Kohler
1
,
W. Köhler
1
,
N. Kohlstrunk
2
,
Z. Konôpková
2
,
A. Konstantinov
9
,
W Kook
1
,
W. Koprek
8
,
M. Körfer
1
,
O Korth
1
,
A. Kosarev
4
,
K. KOSIŃSKI
21
,
D. Kostin
1
,
Y Kot
1
,
A. KOTARBA
19
,
T. Kozak
1
,
V. Kozak
4
,
R. Kramert
8
,
M. KRASILNIKOV
1
,
A. Krasnov
4
,
B. KRAUSE
1
,
L. Kravchuk
16
,
O. Krebs
1
,
R. Kretschmer
1
,
J Kreutzkamp
1
,
O Kröplin
1
,
K Krzysik
19
,
G. KUBE
1
,
H. Kuehn
1
,
N. Kujala
2
,
V. KULIKOV
4
,
V Kuzminych
4
,
D. La Civita
2
,
M. Lacroix
7
,
T Lamb
1
,
A Lancetov
9
,
M. Larsson
12
,
D Le Pinvidic
7
,
S. Lederer
1
,
T Lensch
1
,
D. Lenz
1
,
A.. Leuschner
1
,
F Levenhagen
1
,
Y Li
2
,
J Liebing
1
,
L. Lilje
1
,
T. LIMBERG
1
,
D. Lipka
1
,
B. List
1
,
J Liu
2
,
S. Liu
1
,
B. Lorbeer
1
,
J Lorkiewicz
21
,
H. H. Lu
25
,
F. Ludwig
1
,
K Machau
1
,
W Maciocha
19
,
C Madec
10
,
C Magueur
7
,
C. Maiano
11
,
I Maksimova
9
,
K Malcher
15
,
T. Maltezopoulos
2
,
E Mamoshkina
4
,
B Manschwetus
1
,
F. Marcellini
8
,
G. Marinkovic
8
,
T. Martinez
3
,
H Martirosyan
1
,
W Maschmann
1
,
M. Maslov
26
,
A. Matheisen
1
,
U Mavric
1
,
J. Meissner
1
,
K. Meissner
21
,
M. Messerschmidt
27
,
N. Meyners
1
,
G Michalski
22
,
P Michelato
11
,
N Mildner
1
,
M. Moe
1
,
F Moglia
1
,
C. Mohr
1
,
S Mohr
1
,
W. Möller
1
,
M Mommerz
1
,
L. Monaco
11
,
C Montiel
24
,
M. Moretti
11
,
I. Morozov
4
,
P Morozov
1
,
D Mross
1
,
J. Mueller
1
,
C Müller
1
,
J Müller
1
,
K. Müller
1
,
J Munilla
3
,
A Münnich
2
,
V Muratov
9
,
O. Napoly
10
,
B. Naser
1
,
N Nefedov
4
,
Reinhard Neumann
1
,
Rudolf Neumann
1
,
N Ngada
1
,
D. Noelle
1
,
F Obier
1
,
I Okunev
4
,
J.A. Oliver
5
,
M Omet
1
,
A. OPPELT
1
,
A Ottmar
4
,
M Oublaid
7
,
C. Pagani
28
,
R Paparella
11
,
V. Paramonov
16
,
C Peitzmann
1
,
J. Penning
1
,
A. Perus
7
,
F Peters
1
,
B Petersen
1
,
A. Petrov
1
,
I. Petrov
2
,
S Pfeiffer
1
,
J. Pflüger
2
,
S. Philipp
1
,
Y Pienaud
7
,
P. Pierini
11
,
S. Pivovarov
4
,
M. Planas
2
,
E. PŁAWSKI
21
,
M. Pohl
1
,
J POLINSKI
15
,
V Popov
16
,
S. Prat
7
,
J Prenting
1
,
G. Priebe
1
,
H Pryschelski
1
,
K. Przygoda
1
,
E Pyata
4
,
B Racky
1
,
A Rathjen
1
,
W Ratuschni
1
,
S Regnaud Campderros
10
,
K Rehlich
1
,
D. Reschke
1
,
C. Robson
12
,
J. Roever
1
,
M Roggli
8
,
J Rothenburg
1
,
E. Rusiński
15
,
R Rybaniec
1
,
H Sahling
1
,
M. Salmani
1
,
L. Samoylova
2
,
D Sanzone
29
,
F Saretzki
1
,
O Sawlanski
1
,
J. Schaffran
1
,
H. Schlarb
1
,
M Schlösser
1
,
V. Schlott
8
,
C. Schmidt
1
,
F Schmidt-Foehre
1
,
M. Schmitz
1
,
M Schmökel
1
,
T. Schnautz
1
,
E. SCHNEIDMILLER
1
,
M. Scholz
1
,
B Schöneburg
1
,
J. Schultze
1
,
C. Schulz
2
,
A Schwarz
2
,
J. SEKUTOWICZ
1
,
D. Sellmann
1
,
E. Semenov
4
,
S Serkez
2
,
D Sertore
11
,
N. Shehzad
1
,
P Shemarykin
16
,
L. Shi
1
,
M Sienkiewicz
19
,
D SIKORA
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,
M. Sikorski
2
,
A. Silenzi
2
,
C. SIMON
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,
W. Singer
1
,
X. Singer
1
,
H Sinn
2
,
K. Sinram
1
,
N Skvorodnev
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,
P Smirnow
1
,
T. Sommer
1
,
A. Sorokin
1
,
M. Stadler
8
,
M. STECKEL
1
,
B. Steffen
1
,
N Steinhau Kühl
1
,
F. Stephan
1
,
M. Stodulski
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,
M Stolper
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,
A Sulimov
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,
R Susen
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,
J Swierblewski
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,
C. Sydlo
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,
E. Syresin
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,
V. Sytchev
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,
J. Szuba
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,
N. Tesch
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,
J Thie
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,
A. Thiebault
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,
K. Tiedtke
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D Tischhauser
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J Tolkiehn
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S. Tomin
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F Tonisch
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F. Toral
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I Torbin
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D Treyer
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M Vannoni
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C Vazquez Velez
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I Zagorodnov
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D Zavadtsev
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A Zhirnov
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F Zummack
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Laboratoire de l’Accélérateur Linéaire – Centre Scientifique d’Orsay, Orsay, France
|
9
Joint Stock Company ‘D.V. Efremov Institute of Electrophysical Apparatus’ (JSC NIIEFA), Saint-Petersburg, Russia
|
10
CEA Saclay, Gif-sur-Yvette , France
|
20
Wroclaw Technology Park, Wroclaw, Poland
|
22
Kriosystem, Wroclaw, Poland
|
27
BioXFEL STC, Buffalo, USA
|
Publication type: Journal Article
Publication date: 2020-05-18
scimago Q1
wos Q1
SJR: 11.546
CiteScore: 53.6
Impact factor: 32.9
ISSN: 17494885, 17494893
Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Abstract
The European XFEL is a hard X-ray free-electron laser (FEL) based on a high-electron-energy superconducting linear accelerator. The superconducting technology allows for the acceleration of many electron bunches within one radio-frequency pulse of the accelerating voltage and, in turn, for the generation of a large number of hard X-ray pulses. We report on the performance of the European XFEL accelerator with up to 5,000 electron bunches per second and demonstrating a full energy of 17.5 GeV. Feedback mechanisms enable stabilization of the electron beam delivery at the FEL undulator in space and time. The measured FEL gain curve at 9.3 keV is in good agreement with predictions for saturated FEL radiation. Hard X-ray lasing was achieved between 7 keV and 14 keV with pulse energies of up to 2.0 mJ. Using the high repetition rate, an FEL beam with 6 W average power was created. The first operation of the European X-ray free-electron laser facility accelerator based on superconducting technology is reported. The maximum electron energy is 17.5 GeV. A laser average power of 6 W is achieved at a photon energy of 9.3 keV.
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Decking W. et al. A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator // Nature Photonics. 2020. Vol. 14. No. 6. pp. 391-397.
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Decking W. et al. A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator // Nature Photonics. 2020. Vol. 14. No. 6. pp. 391-397.
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@article{2020_Decking,
author = {W. Decking and S. Abeghyan and P Abramian and A Abramsky and A Aguirre and C Albrecht and P Alou and M. Altarelli and P. Altmann and K Amyan and V Anashin and E Apostolov and K APPEL and D Auguste and V. Ayvazyan and S Baark and F Babies and N. Baboi and P. Bak and V. Balandin and R. BALDINGER and B Baranasic and S. Barbanotti and O. Belikov and V. Belokurov and L. BELOVA and V Belyakov and S. Berry and M. Bertucci and B. Beutner and A. Block and M Blöcher and T Böckmann and C. Bohm and M. Bohnert and V. Bondar and E. Bondarchuk and M Bonezzi and P Borowiec and C. Bosch and U Bösenberg and A. Bosotti and R Böspflug and M. Bousonville and E. BOYD and Y. Bozhko and A. Brand and J. Branlard and S. Briechle and F. Brinker and others},
title = {A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator},
journal = {Nature Photonics},
year = {2020},
volume = {14},
publisher = {Springer Nature},
month = {may},
url = {https://doi.org/10.1038/s41566-020-0607-z},
number = {6},
pages = {391--397},
doi = {10.1038/s41566-020-0607-z}
}
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Decking, W., et al. “A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator.” Nature Photonics, vol. 14, no. 6, May. 2020, pp. 391-397. https://doi.org/10.1038/s41566-020-0607-z.
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