Your search keyword '"Couprie, M E"' showing total 382 results

1. Prospects for free-electron lasers powered by plasma-wakefield-accelerated beams

Author

Galletti, M., Assmann, R., Couprie, M. E., Ferrario, M., Giannessi, L., Irman, A., Pompili, R., and Wang, W.

Published

2024

2. Interferometry for full temporal reconstruction of laser-plasma accelerator-based seeded free electron lasers

Author

Labat, M., Bielawski, S., Loulergue, A., Corde, S., Couprie, M. E., and Roussel, E.

Subjects

Physics - Accelerator Physics

Abstract

The spectacular development of Laser-Plasma Accelerators (LPA) appears very promising for a free electron laser application. The handling of the inherent properties of those LPA beams already allowed controlled production of LPA-based spontaneous undulator radiation. Stepping further, we here unveil that the forthcoming LPA-based seeded FELs will present singular spatio-spectral distributions. Relying on numerical simulations and simple analytical models, we show how those interferometric patterns can be exploited to retrieve, in single-shot, the spectro-temporal content and source point properties of the FEL pulses.

Published

2019

3. Tunable High Gradient Quadrupoles For A Laser Plasma Acceleration Based FEL

Author

Ghaith, A., Kitegi, C., Andre, T., Valleau, M., Marteau, F., Veteran, J., Blache, F., Benabderrahmane, C., Cosson, O., Forest, F., Jivkov, P., Lancelot, J. L., and Couprie, M. E.

Subjects

Physics - Accelerator Physics

Abstract

Laser Plasma Acceleration (LPA) is capable of producing a GeV beam within a cm accelerating distance, but with a rather high initial divergence and large energy spread. COXINEL aims to demonstrate a compact Free Electron Laser using such a source, where a specific transport line with adequate elements is used, such as tunable high gradient quadrupoles for handling the divergence. An innovative permanent magnet based quadrupole (QUAPEVA) made of two quadrupoles superimposed capable of generating a gradient of 200 T/m is presented. The first quadrupole consists of magnets shaped as a ring and attaining a constant gradient of 155 T/m, and the second one made of four cylindrical magnets surrounding the ring and capable of rotating around their axis to achieve a gradient tunability of $\pm$ 46 T/m. Each tuning magnet is connected to a motor and controlled independently, enabling the gradient to be tuned with a rather good magnetic center stability ($\pm$10 $\mu$m) and without any field asymmetry. The measurements and field optimization of seven quadrupoles with different magnetic lengths are reported. A set of QUAPEVA triplet, installed at COXINEL, achieved good focusing and enabled beam based alignment., Comment: 4 pages, 9 figures

Published

2017

4. Variable high gradient permanent magnet quadrupole (QUAPEVA)

Author

Marteau, F ., N'gotta, P., Benabderrahmane, C., Ghaith, A., Valléau, M., Loulergue, A., Vétéran, J., Sebdaoui, M., André, T., Bec, G. Le, Chavanne, J., Vallerand, C., Oumbarek, D., Cosson, O., Forest, F., Jivkov, P., Lancelot, J. L., and Couprie, M. E.

Subjects

Physics - Accelerator Physics

Abstract

High gradient quadrupoles are necessary for different applications such as laser plasma acceleration, colliders, and diffraction limited light sources. Permanent magnet quadrupoles provide a higher field strength and compactness than conventional electro-magnets. An original design of permanent magnet based quadrupole (so-called "QUAPEVA"), composed of a Halbach ring placed in the center with a bore radius of 6 mm and surrounded by four permanent magnet cylinders capable of providing a gradient of 210 T/m, is presented. The design of the QUAPEVAs, including magnetic simulation modeling, and mechanical issues are reported. Magnetic measurements of seven systems of different lengths are presented and confirmed the theoretical expectations. The variation of the magnetic center while changing the gradient strength is +/- 10 micrometer. A triplet of three QUAPEVA magnets are used to focus a beam with large energy spread and high divergence that is generated by Laser Plasma Acceleration source for a free electron laser demonstration., Comment: 4 pages, 9 figures

Published

2017

5. Undulator design for a laser-plasma-based free-electron-laser

Author

Ghaith, A., Couprie, M.-E., Oumbarek-Espinos, D., Andriyash, I.A., Massimo, F., Clarke, J.A., Courthold, M., Bayliss, V., Bernhard, A., Trunk, M., Valléau, M., Marcouillé, O., Chancé, A., Licciardi, S., Malka, V., Nguyen, F., and Dattoli, G.

Published

2021

6. Development and Operation of a Pr2Fe14B Based Cryogenic Permanent Magnet Undulator for a High Spatial Resolution X-ray Beamline

Author

Benabderrahmane, C., Valleau, M., Ghaith, A., Berteaud, P., Chapuis, L., Marteau, F., Briquez, F., Marcouille, O., Marlats, J. L., Tavakoli, K., Mary, A., Zerbib, D., Lestrade, A., Louvet, M., Brunelle, P., Medjoubi, K., Nagaoka, R., Herbeaux, C., Bechu, N., Rommeluere, P., Somogyi, A., Chubar, O., Kitegi, C., and Couprie, M. E.

Subjects

Physics - Accelerator Physics

Abstract

Short period, high field undulators are used to produce hard X-rays on synchrotron radiation based storage ring facilities of intermediate energy and enable short wavelength Free Electron Laser. Cryogenic permanent magnet undulators take benefit from improved magnetic properties of RE2Fe14B (Rare Earth based magnets) at low temperatures for achieving short period, high magnetic field and high coercivity. Using Pr2Fe14B instead of Nd2Fe14B, which is generally employed for undulators, avoids the limitation caused by the Spin Reorientation Transition phenomenon, and simplifies the cooling system by allowing the working temperature of the undulator to be directly at the liquid nitrogen one (77 K). We describe here the development of a full scale (2 m), 18 mm period Pr2Fe14B cryogenic permanent magnet undulator (U18). The design, construction and optimization, as well as magnetic measurements and shimming at low temperature are presented. The commissioning and operation of the undulator with the electron beam and spectrum measurement using the Nanoscopmium beamline at SOLEIL are also reported., Comment: To be submitted to PRAB

Published

2016

7. Transport studies of LPA electron beam towards the FEL amplification at COXINEL

Author

Khojoyan, M, Briquez, F., Labat, M., Loulergue, A., Marcouillé, O., Marteau, F., Sharma, G., and Couprie, M. E.

Subjects

Physics - Accelerator Physics

Abstract

Laser Plasma Acceleration (LPA) [1] is an emerging concept enabling to generate electron beams with high energy, high peak current and small transverse emittance within a very short distance. The use of LPA can be applied to the Free Electron Laser (FEL) [2] case in order to investigate whether it is suitable for the light amplification in the undulator. However, capturing and guiding of such beams to the undulator is very challenging, because of the large divergence and high energy spread of the electron beams at the plasma exit, leading to large chromatic emittances. A specific beam manipulation scheme was recently proposed for the COXINEL (Coherent X-ray source inferred from electrons accelerated by laser) setup, which makes an advantage from the intrinsically large chromatic emittance of such beams [3]. The electron beam transport is studied using two simulation codes: a SOLEIL in-house one and ASTRA [4]. The influence of the collective effects on the electron beam performance is also examined.

Published

2016

8. First production of X-rays at the ThomX high-intensity Compton source

Author

Jacquet, M, Alexandre, P, Alkadi, M, Alves, M, Amer, M, Amoudry, L, Auguste, D, Babigeon, J, Balcou, P, Baltazar, M, Benabderrahmane, C, el Fekih, R, Benoit, A, Berteaud, P, Biagini, M, Blin, A, Bobault, S, Bonanzingamarco, M, Bonenfant, J, Bonis, J, Bouanani, Y, Bouaziz, S, Bouvet, F, Bravin, A, Bruni, C, Bruyere, C, Bzyl, H, Cassinari, L, Cassou, K, Cayla, J, Chabaud, T, Chaikovska, I, Chance, S, Chapelle, C, Chaumat, V, Chiche, R, Cobessi, A, Cormier, E, Cornebise, P, Couprie, M, Cuoq, R, Dalifard, O, Degallaix, J, Delerue, N, Del Net, W, Diaz, A, Dietrich, Y, Diop, M, Dorkel, R, Douillet, D, Drebot, I, Dugal, J, Dupraz, K, Dupuy, E, El Ajjouri, M, El Kamchi, N, El Khaldi, M, Elleaume, H, Ergenlik, E, Estève, F, Favier, P, Fernandez, M, Gamelin, A, Garaut, J, Garolfi, L, Gauron, P, Gauthier, F, Girault, P, Gonnin, A, Grasset, D, Guerard, E, Guler, H, Haissinski, J, Hazemann, J, Helder, D, Herbeaux, C, Herry, E, Hodeau, J, Horodynski, J, Hubert, N, Iaquaniello, G, Jacquet, P, Jeantet, P, Jehanno, D, Jules, E, Kapoujyan, G, Kubytskyi, V, Labat, M, Labaye, F, Lacipière, J, Lacroix, M, Lahéra, E, Langlet, M, Lebarillec, T, Ledu, J, Le Duc, G, Le Guidec, D, Leluan, B, Lepercq, P, Lestrade, A, Jacquet M., Alexandre P., Alkadi M., Alves M., Amer M., Amoudry L., Auguste D., Babigeon J. L., Balcou P., Baltazar M., Benabderrahmane C., el Fekih R. B., Benoit A., Berteaud P., Biagini M., Blin A., Bobault S., Bonanzingamarco M., Bonenfant J., Bonis J., Bouanani Y., Bouaziz S., Bouvet F., Bravin A., Bruni C., Bruyere C., Bzyl H., Cassinari L., Cassou K., Cayla J. N., Chabaud T., Chaikovska I., Chance S., Chapelle C., Chaumat V., Chiche R., Cobessi A., Cormier E., Cornebise P., Couprie M. E., Cuoq R., Dalifard O., Degallaix J., Delerue N., Del Net W., Diaz A., Dietrich Y., Diop M., Dorkel R., Douillet D., Drebot I., Dugal J. P., Dupraz K., Dupuy E., El Ajjouri M., El Kamchi N., El Khaldi M., Elleaume H., Ergenlik E., Estève F., Favier P., Fernandez M., Gamelin A., Garaut J. F., Garolfi L., Gauron P., Gauthier F., Girault P., Gonnin A., Grasset D., Guerard E., Guler H., Haissinski J., Hazemann J. L., Helder D., Herbeaux C., Herry E., Hodeau J. L., Horodynski J. M., Hubert N., Iaquaniello G., Jacquet P., Jeantet P., Jehanno D., Jules E., Kapoujyan G., Kubytskyi V., Labat M., Labaye F., Lacipière J., Lacroix M., Lahéra E., Langlet M., Lebarillec T., Ledu J. F., Le Duc G., Le Guidec D., Leluan B., Lepercq P., Lestrade A., Jacquet, M, Alexandre, P, Alkadi, M, Alves, M, Amer, M, Amoudry, L, Auguste, D, Babigeon, J, Balcou, P, Baltazar, M, Benabderrahmane, C, el Fekih, R, Benoit, A, Berteaud, P, Biagini, M, Blin, A, Bobault, S, Bonanzingamarco, M, Bonenfant, J, Bonis, J, Bouanani, Y, Bouaziz, S, Bouvet, F, Bravin, A, Bruni, C, Bruyere, C, Bzyl, H, Cassinari, L, Cassou, K, Cayla, J, Chabaud, T, Chaikovska, I, Chance, S, Chapelle, C, Chaumat, V, Chiche, R, Cobessi, A, Cormier, E, Cornebise, P, Couprie, M, Cuoq, R, Dalifard, O, Degallaix, J, Delerue, N, Del Net, W, Diaz, A, Dietrich, Y, Diop, M, Dorkel, R, Douillet, D, Drebot, I, Dugal, J, Dupraz, K, Dupuy, E, El Ajjouri, M, El Kamchi, N, El Khaldi, M, Elleaume, H, Ergenlik, E, Estève, F, Favier, P, Fernandez, M, Gamelin, A, Garaut, J, Garolfi, L, Gauron, P, Gauthier, F, Girault, P, Gonnin, A, Grasset, D, Guerard, E, Guler, H, Haissinski, J, Hazemann, J, Helder, D, Herbeaux, C, Herry, E, Hodeau, J, Horodynski, J, Hubert, N, Iaquaniello, G, Jacquet, P, Jeantet, P, Jehanno, D, Jules, E, Kapoujyan, G, Kubytskyi, V, Labat, M, Labaye, F, Lacipière, J, Lacroix, M, Lahéra, E, Langlet, M, Lebarillec, T, Ledu, J, Le Duc, G, Le Guidec, D, Leluan, B, Lepercq, P, Lestrade, A, Jacquet M., Alexandre P., Alkadi M., Alves M., Amer M., Amoudry L., Auguste D., Babigeon J. L., Balcou P., Baltazar M., Benabderrahmane C., el Fekih R. B., Benoit A., Berteaud P., Biagini M., Blin A., Bobault S., Bonanzingamarco M., Bonenfant J., Bonis J., Bouanani Y., Bouaziz S., Bouvet F., Bravin A., Bruni C., Bruyere C., Bzyl H., Cassinari L., Cassou K., Cayla J. N., Chabaud T., Chaikovska I., Chance S., Chapelle C., Chaumat V., Chiche R., Cobessi A., Cormier E., Cornebise P., Couprie M. E., Cuoq R., Dalifard O., Degallaix J., Delerue N., Del Net W., Diaz A., Dietrich Y., Diop M., Dorkel R., Douillet D., Drebot I., Dugal J. P., Dupraz K., Dupuy E., El Ajjouri M., El Kamchi N., El Khaldi M., Elleaume H., Ergenlik E., Estève F., Favier P., Fernandez M., Gamelin A., Garaut J. F., Garolfi L., Gauron P., Gauthier F., Girault P., Gonnin A., Grasset D., Guerard E., Guler H., Haissinski J., Hazemann J. L., Helder D., Herbeaux C., Herry E., Hodeau J. L., Horodynski J. M., Hubert N., Iaquaniello G., Jacquet P., Jeantet P., Jehanno D., Jules E., Kapoujyan G., Kubytskyi V., Labat M., Labaye F., Lacipière J., Lacroix M., Lahéra E., Langlet M., Lebarillec T., Ledu J. F., Le Duc G., Le Guidec D., Leluan B., Lepercq P., and Lestrade A.

Abstract

With the increase in laser power and finesse of optical cavities over the last decade, laboratory-size Compton sources are very promising. These sources produce X-rays through interactions between relativistic electrons and laser photons and, in term of brightness, fall between large synchrotron facilities and classical laboratory X-ray sources. The ThomX source is the French project in this field. This article first presents a state of the art of high-intensity Compton sources, then the ThomX source is briefly described, and the first results are detailed, in particular the production of the first X-rays, the acquisition of the first spectrum and the first image of the beam. Finally, the next objectives are discussed.

Published

2024

9. Observing microscopic structures of a relativistic object using a time -stretch strategy

Author

Roussel, E., Evain, C., Szwaj, M. Le Parquier C., Bielawski, S., Manceron, L., Brubach, J. -B., Tordeux, M. -A., Ricaud, J. -P., Cassinari, L., Labat, M., Couprie, M. -E, and Roy, P.

Subjects

Physics - Accelerator Physics

Abstract

Emission of light by a single electron moving on a curved trajectory (synchrotron radiation) is one of the most well-known fundamental radiation phenomena. However experimental situations are more complex as they involve many electrons, each being exposed to the radiation of its neighbors. This interaction has dramatic consequences, one of the most spectacular being the spontaneous formation of spatial structures inside electrons bunches. This fundamental effect is actively studied as it represents one of the most fundamental limitations in electron accelerators, and at the same time a source of intense terahertz radiation (Coherent Synchrotron Radiation, or CSR). Here we demonstrate the possibility to directly observe the electron bunch microstructures with subpicosecond resolution, in a storage ring accelerator. The principle is to monitor the terahertz pulses emitted by the structures, using a strategy from photonics, time-stretch, consisting in slowing-down the phenomena before recording. This opens the way to unpreceeded possibilities for analyzing and mastering new generation high power coherent synchrotron sources., Comment: 7 pages, 6 figures

Published

2014

10. EuPRAXIA Conceptual Design Report

Author

Assmann, R. W., Weikum, M. K., Akhter, T., Alesini, D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Artioli, M., Aschikhin, A., Audet, T., Bacci, A., Barna, I. F., Bartocci, S., Bayramian, A., Beaton, A., Beck, A., Bellaveglia, M., Beluze, A., Bernhard, A., Biagioni, A., Bielawski, S., Bisesto, F. G., Bonatto, A., Boulton, L., Brandi, F., Brinkmann, R., Briquez, F., Brottier, F., Bründermann, E., Büscher, M., Buonomo, B., Bussmann, M. H., Bussolino, G., Campana, P., Cantarella, S., Cassou, K., Chancé, A., Chen, M., Chiadroni, E., Cianchi, A., Cioeta, F., Clarke, J. A., Cole, J. M., Costa, G., Couprie, M. -E., Cowley, J., Croia, M., Cros, B., Crump, P. A., D’Arcy, R., Dattoli, G., Del Dotto, A., Delerue, N., Del Franco, M., Delinikolas, P., De Nicola, S., Dias, J. M., Di Giovenale, D., Diomede, M., Di Pasquale, E., Di Pirro, G., Di Raddo, G., Dorda, U., Erlandson, A. C., Ertel, K., Esposito, A., Falcoz, F., Falone, A., Fedele, R., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiore, G., Fiorito, R., Fonseca, R. A., Franzini, G., Galimberti, M., Gallo, A., Galvin, T. C., Ghaith, A., Ghigo, A., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Haefner, C., Heinemann, T., Helm, A., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Hübner, M., Ibison, M., Incremona, S., Irman, A., Iungo, F., Jafarinia, F. J., Jakobsson, O., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Kirchen, M., Kirwan, G., Kitégi, C., Knetsch, A., Kocon, D., Koester, P., Kononenko, O. S., Korn, G., Kostyukov, I., Kruchinin, K. O., Labate, L., Le Blanc, C., Lechner, C., Lee, P., Leemans, W., Lehrach, A., Li, X., Li, Y., Libov, V., Lifschitz, A., Lindstrøm, C. A., Litvinenko, V., Lu, W., Lundh, O., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marcelli, A., Marchetti, B., Marcouillé, O., Marocchino, A., Marteau, F., Martinez de la Ossa, A., Martins, J. L., Mason, P. D., Massimo, F., Mathieu, F., Maynard, G., Mazzotta, Z., Mironov, S., Molodozhentsev, A. Y., Morante, S., Mosnier, A., Mostacci, A., Müller, A. -S., Murphy, C. D., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Nutter, A., Osterhoff, J., Oumbarek Espinos, D., Paillard, J. -L., Papadopoulos, D. N., Patrizi, B., Pattathil, R., Pellegrino, L., Petralia, A., Petrillo, V., Piersanti, L., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Reagan, B. A., Resta-Lopez, J., Ricci, R., Romeo, S., Rossetti Conti, M., Rossi, A. R., Rossmanith, R., Rotundo, U., Roussel, E., Sabbatini, L., Santangelo, P., Sarri, G., Schaper, L., Scherkl, P., Schramm, U., Schroeder, C. B., Scifo, J., Serafini, L., Sharma, G., Sheng, Z. M., Shpakov, V., Siders, C. W., Silva, L. O., Silva, T., Simon, C., Simon-Boisson, C., Sinha, U., Sistrunk, E., Specka, A., Spinka, T. M., Stecchi, A., Stella, A., Stellato, F., Streeter, M. J. V., Sutherland, A., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G. E., Terzani, D., Toci, G., Tomassini, P., Torres, R., Ullmann, D., Vaccarezza, C., Valléau, M., Vannini, M., Vannozzi, A., Vescovi, S., Vieira, J. M., Villa, F., Wahlström, C. -G., Walczak, R., Walker, P. A., Wang, K., Welsch, A., Welsch, C. P., Weng, S. M., Wiggins, S. M., Wolfenden, J., Xia, G., Yabashi, M., Zhang, H., Zhao, Y., Zhu, J., and Zigler, A.

Published

2020

11. Erratum to: EuPRAXIA Conceptual Design Report: Eur. Phys. J. Special Topics 229, 3675-4284 (2020), https://doi.org/10.1140/epjst/e2020-000127-8

Author

Assmann, R. W., Weikum, M. K., Akhter, T., Alesini, D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Artioli, M., Aschikhin, A., Audet, T., Bacci, A., Barna, I. F., Bartocci, S., Bayramian, A., Beaton, A., Beck, A., Bellaveglia, M., Beluze, A., Bernhard, A., Biagioni, A., Bielawski, S., Bisesto, F. G., Bonatto, A., Boulton, L., Brandi, F., Brinkmann, R., Briquez, F., Brottier, F., Bründermann, E., Büscher, M., Buonomo, B., Bussmann, M. H., Bussolino, G., Campana, P., Cantarella, S., Cassou, K., Chancé, A., Chen, M., Chiadroni, E., Cianchi, A., Cioeta, F., Clarke, J. A., Cole, J. M., Costa, G., Couprie, M. -E., Cowley, J., Croia, M., Cros, B., Crump, P. A., D’Arcy, R., Dattoli, G., Del Dotto, A., Delerue, N., Del Franco, M., Delinikolas, P., De Nicola, S., Dias, J. M., Di Giovenale, D., Diomede, M., Di Pasquale, E., Di Pirro, G., Di Raddo, G., Dorda, U., Erlandson, A. C., Ertel, K., Esposito, A., Falcoz, F., Falone, A., Fedele, R., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiore, G., Fiorito, R., Fonseca, R. A., Franzini, G., Galimberti, M., Gallo, A., Galvin, T. C., Ghaith, A., Ghigo, A., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Haefner, C., Heinemann, T., Helm, A., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Hübner, M., Ibison, M., Incremona, S., Irman, A., Iungo, F., Jafarinia, F. J., Jakobsson, O., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Kirchen, M., Kirwan, G., Kitégi, C., Knetsch, A., Kocon, D., Koester, P., Kononenko, O. S., Korn, G., Kostyukov, I., Kruchinin, K. O., Labate, L., Le Blanc, C., Lechner, C., Lee, P., Leemans, W., Lehrach, A., Li, X., Li, Y., Libov, V., Lifschitz, A., Lindstrøm, C. A., Litvinenko, V., Lu, W., Lundh, O., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marcelli, A., Marchetti, B., Marcouillé, O., Marocchino, A., Marteau, F., Martinez de la Ossa, A., Martins, J. L., Mason, P. D., Massimo, F., Mathieu, F., Maynard, G., Mazzotta, Z., Mironov, S., Molodozhentsev, A. Y., Morante, S., Mosnier, A., Mostacci, A., Müller, A. -S., Murphy, C. D., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Nutter, A., Osterhoff, J., Oumbarek Espinos, D., Paillard, J. -L., Papadopoulos, D. N., Patrizi, B., Pattathil, R., Pellegrino, L., Petralia, A., Petrillo, V., Piersanti, L., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Reagan, B. A., Resta-Lopez, J., Ricci, R., Romeo, S., Rossetti Conti, M., Rossi, A. R., Rossmanith, R., Rotundo, U., Roussel, E., Sabbatini, L., Santangelo, P., Sarri, G., Schaper, L., Scherkl, P., Schramm, U., Schroeder, C. B., Scifo, J., Serafini, L., Sharma, G., Sheng, Z. M., Shpakov, V., Siders, C. W., Silva, L. O., Silva, T., Simon, C., Simon-Boisson, C., Sinha, U., Sistrunk, E., Specka, A., Spinka, T. M., Stecchi, A., Stella, A., Stellato, F., Streeter, M. J. V., Sutherland, A., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G. E., Terzani, D., Toci, G., Tomassini, P., Torres, R., Ullmann, D., Vaccarezza, C., Valléau, M., Vannini, M., Vannozzi, A., Vescovi, S., Vieira, J. M., Villa, F., Wahlström, C. -G., Walczak, R., Walker, P. A., Wang, K., Welsch, A., Welsch, C. P., Weng, S. M., Wiggins, S. M., Wolfenden, J., Xia, G., Yabashi, M., Zhang, H., Zhao, Y., Zhu, J., and Zigler, A.

Published

2020

12. Magnet Design Status of SOLEIL II

Author

Kitegi, C., Marteau, F., Berlioux, A., Couprie, M.-E., Benyakhlef, Y., Mary, A., Ribbens, M., Tavakoli, K., Thoraud, S., and Pinty, V.

Abstract

The lattice of SOLEIL II, the SOLEIL upgrade project, consists of alternating 7BA and 4BA High Order Achromat (HOA) type cells and provides a natural emittance of 80 pm.rad at an energy of 2.75GeV. Such HOA lattice necessitates over a thousand magnets. Adapting this lattice to the existing tunnel space requires the use of compact yet high-field magnets, leaving minimal room in between. To reduce SOLEIL II power consumption, the magnetic design of dipoles and quadrupoles is based on permanent magnet technology. Correctors, sextupoles and octupoles are resistive magnets. This paper offers a comprehensive overview of the current status of magnet design for SOLEIL II.

Published

2024

13. Chaos in free electron laser oscillators

Author

Bruni, C., Bachelard, R., Garzella, D., Orlandi, G. L., and Couprie, M. E.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

The chaotic nature of a storage-ring Free Electron Laser (FEL) is investigated. The derivation of a low embedding dimension for the dynamics allows the low-dimensionality of this complex system to be observed, whereas its unpredictability is demonstrated, in some ranges of parameters, by a positive Lyapounov exponent. The route to chaos is then explored by tuning a single control parameter, and a period-doubling cascade is evidenced, as well as intermittence., Comment: Accepted in EPJD

Published

2009

14. Chaotic dynamics in a storage-ring Free Electron Laser

Author

De Ninno, G., Fanelli, D., Bruni, C., and Couprie, M. E.

Subjects

Physics - Optics, Condensed Matter

Abstract

The temporal dynamics of a storage-ring Free Electron Laser is here investigated with particular attention to the case in which an external modulation is applied to the laser-electron beam detuning. The system is shown to produce bifurcations, multi-furcations as well as chaotic regimes. The peculiarities of this phenomenon with respect to the analogous behavior displayed by conventional laser sources are pointed out. Theoretical results, obtained by means of a phenomenological model reproducing the evolution of the main statistical parameters of the system, are shown to be in a good agreement with experiments carried out on the Super-ACO Free Electron Laser., Comment: submitted to Europ Phys. Journ. D

Published

2002

15. Machine Learning-based Data Analysis and Surrogate Modeling For COXINEL Experiment

Author

Willmann, A., (0000-0003-1064-489X) Ghaith, A., (0000-0003-0548-3999) Chang, Y.-Y., (0000-0002-3844-3697) Debus, A., (0000-0003-3089-4087) La Berge, M., Labat, M., (0000-0002-6463-5406) Ufer, P., (0000-0002-2769-4749) Schöbel, S., Hoffmann, N., (0000-0002-8258-3881) Bussmann, M., Couprie, M.-E., (0000-0003-0390-7671) Schramm, U., (0000-0002-4626-0049) Irman, A., Willmann, A., (0000-0003-1064-489X) Ghaith, A., (0000-0003-0548-3999) Chang, Y.-Y., (0000-0002-3844-3697) Debus, A., (0000-0003-3089-4087) La Berge, M., Labat, M., (0000-0002-6463-5406) Ufer, P., (0000-0002-2769-4749) Schöbel, S., Hoffmann, N., (0000-0002-8258-3881) Bussmann, M., Couprie, M.-E., (0000-0003-0390-7671) Schramm, U., and (0000-0002-4626-0049) Irman, A.

Abstract

Recently, free electron lasing at UV wavelength has been demonstrated by deploying the COXINEL beamline driven by HZDR plasma accelerator in a seeded configuration[1]. Further control and optimization of such an FEL radiation require full knowledge of strongly-coupled multivariate parameters involved in laser plasma acceleration, electron beam transport and radiation generation. For this purpose, one has to solve an inverse problem, i.e. finding matching parameters of the simulation to reproduce the experiment. Such inverse problems are ill-posed and cannot be easily resolved due to high computational complexity. Here, machine learning-based methods have a high potential to accelerate theoretical comprehension of the system, novel means for design space exploration and promise reliable in-situ analysis of experimental diagnostics and parameters. We apply simulation-based inference technique for this purpose. This method is a combination of deep learning and statistical approaches to resolve an inverse problem up to a posterior distribution of the simulation parameters given an experimental sample. In addition, we have developed machine learning-based surrogate models that can significantly accelerate forward computations for even faster results of the inverse solver. [1] M. Labat, et al. "Seeded free-electron laser in driven by a compact laser plasma accelerator", Nat. Photonics, 17, 150(2023)

Published

2023

16. Seeded free-electron laser driven by a compact laser plasma accelerator

Author

Labat, M., (0000-0001-9129-4208) Couperus Cabadağ, J. P., (0000-0003-1064-489X) Ghaith, A., (0000-0002-4626-0049) Irman, A., Berlioux, A., Berteaud, P., Blache, F., (0000-0002-1919-8585) Bock, S., Bouvet, F., Briquez, F., (0000-0003-0548-3999) Chang, Y.-Y., Corde, S., (0000-0002-3844-3697) Debus, A., Oliveira, C., Duval, J.-P., Dietrich, Y., El Ajjouri, M., Eisenmann, C., Gautier, J., Gebhardt, R., Grams, S., Helbig, U., Herbeaux, C., Hubert, N., Kitegi, C., Kononenko, O., (0000-0002-8145-5837) Kuntzsch, M., (0000-0003-3089-4087) La Berge, M., Le, S., Leluan, B., Loulergue, A., Malka, V., Marteau, F., Huy N. Guyen, M., Oumbarek-Espinos, D., (0000-0001-7990-9564) Pausch, R., Pereira, D., (0000-0002-4738-6436) Püschel, T., Ricaud, J.-P., Rommeluere, P., Roussel, E., Rousseau, P., (0000-0002-2769-4749) Schöbel, S., Sebdaoui, M., (0000-0001-8965-1149) Steiniger, K., Tavakoli, K., Thaury, C., (0000-0002-6463-5406) Ufer, P., Valleau, M., Vandenberghe, M., Veteran, J., (0000-0003-0390-7671) Schramm, U., Couprie, M.-E., Labat, M., (0000-0001-9129-4208) Couperus Cabadağ, J. P., (0000-0003-1064-489X) Ghaith, A., (0000-0002-4626-0049) Irman, A., Berlioux, A., Berteaud, P., Blache, F., (0000-0002-1919-8585) Bock, S., Bouvet, F., Briquez, F., (0000-0003-0548-3999) Chang, Y.-Y., Corde, S., (0000-0002-3844-3697) Debus, A., Oliveira, C., Duval, J.-P., Dietrich, Y., El Ajjouri, M., Eisenmann, C., Gautier, J., Gebhardt, R., Grams, S., Helbig, U., Herbeaux, C., Hubert, N., Kitegi, C., Kononenko, O., (0000-0002-8145-5837) Kuntzsch, M., (0000-0003-3089-4087) La Berge, M., Le, S., Leluan, B., Loulergue, A., Malka, V., Marteau, F., Huy N. Guyen, M., Oumbarek-Espinos, D., (0000-0001-7990-9564) Pausch, R., Pereira, D., (0000-0002-4738-6436) Püschel, T., Ricaud, J.-P., Rommeluere, P., Roussel, E., Rousseau, P., (0000-0002-2769-4749) Schöbel, S., Sebdaoui, M., (0000-0001-8965-1149) Steiniger, K., Tavakoli, K., Thaury, C., (0000-0002-6463-5406) Ufer, P., Valleau, M., Vandenberghe, M., Veteran, J., (0000-0003-0390-7671) Schramm, U., and Couprie, M.-E.

Abstract

Seeded free-electron laser driven by a compact laser plasma accelerator Free-electron lasers generate high-brilliance coherent radiation at wavelengths spanning from the infrared to the X-ray domains. The recent development of short-wavelength seeded free-electron lasers now allows for unprecedented levels of control on longitudinal coherence, opening new scientific avenues such as ultra-fast dynamics on complex systems and X-ray nonlinear optics. Although those devices rely on state-of-the-art large-scale accelerators, advancements on laser-plasma accelerators, which harness gigavolt-per-centimetre accelerating fields, showcase a promising technology as compact drivers for free-electron lasers. Using such footprint-reduced accelerators, exponential amplification of a shot-noise type of radiation in a self-amplified spontaneous emission configuration was recently achieved. However, employing this compact approach for the delivery of temporally coherent pulses in a controlled manner has remained a major challenge. Here we present the experimental demonstration of a laser-plasma accelerator-driven free-electron laser in a seeded configuration, where control over the radiation wavelength is accomplished. Furthermore, the appearance of interference fringes, resulting from the interaction between the phase-locked emitted radiation and the seed, confirms longitudinal coherence. Building on our scientific achievements, we anticipate a navigable pathway to extreme-ultraviolet wavelengths, paving the way towards smaller-scale free-electron lasers, unique tools for a multitude of applications in industry, laboratories and universities.

Published

2023

17. The LUNEX5 Project in France

Author

Couprie, M. E., Benabderrahmane, C., Betinelli, P., Bouvet, F., Buteau, A., Cassinari, L., Daillant, J., Denard, J. C., Eymard, P., Gagey, B., Herbeaux, C., Labat, M., Lestrade, A., Loulergue, A., Marchand, P., Marlats, J. L., Miron, C., Morin, P., Nadji, A., Polack, F., Pruvost, J. B., Ribeiro, F., Ricaud, J. P., Roy, P., Tanikawa, T., Roux, R., Bielawski, S., Evain, C., Szwaj, C., Lambert, G., Lifschitz, A., Malka, V., Lehe, R., Rousse, A., Ta Phuoc, K., Thaury, C., Devanz, G., Luong, M., Carré, B., LeBec, G., Farvacque, L., Dubois, A., Lüning, J., Sebban, Stéphane, editor, Gautier, Julien, editor, Ros, David, editor, and Zeitoun, Philippe, editor

Published

2014

18. Tunable High Spatio-Spectral Purity Undulator Radiation from a Transported Laser Plasma Accelerated Electron Beam

Author

Ghaith, A., Oumbarek, D., Roussel, E., Corde, S., Labat, M., André, T., Loulergue, A., Andriyash, I. A., Chubar, O., Kononenko, O., Smartsev, S., Marcouillé, O., Kitégi, C., Marteau, F., Valléau, M., Thaury, C., Gautier, J., Sebban, S., Tafzi, A., Blache, F., Briquez, F., Tavakoli, K., Carcy, A., Bouvet, F., Dietrich, Y., Lambert, G., Hubert, N., El Ajjouri, M., Polack, F., Dennetière, D., Leclercq, N., Rommeluère, P., Duval, J.-P., Sebdaoui, M., Bourgoin, C., Lestrade, A., Benabderrahmane, C., Vétéran, J., Berteaud, P., De Oliveira, C., Goddet, J. P., Herbeaux, C., Szwaj, C., Bielawski, S., Malka, V., and Couprie, M.-E.

Published

2019

19. Characteristics and development of the coherent synchrotron radiation sources for THz spectroscopy

Author

Barros, J., Evain, C., Roussel, E., Manceron, L., Brubach, J.-B., Tordeux, M.-A., Couprie, M.-E., Bielawski, S., Szwaj, C., Labat, M., and Roy, P.

Published

2015

20. Seeded FEL lasing of the COXINEL beamline driven by the HZDR plasma accelerator

Author

Labat, M., (0000-0001-9129-4208) Couperus Cabadağ, J. P., Ghaith, A., (0000-0002-4626-0049) Irman, A., Berlioux, A., Berteaud, P., Blache, F., (0000-0002-1919-8585) Bock, S., Bouvet, F., Briquez, F., Chang, Y.-Y., Corde, S., (0000-0002-3844-3697) Debus, A., Oliveira, C., Duval, J.-P., Dietrich, Y., El Ajjouri, M., Eisenmann, C., Gautier, J., Gebhardt, R., Grams, S., Helbig, U., Herbeaux, C., Hubert, N., Kitegi, C., Kononenko, O., (0000-0002-8145-5837) Kuntzsch, M., La Berge, M., Le, S., Leluan, B., Loulergue, A., Malka, V., Marteau, F., Huy N. Guyen, M., Oumbarek-Espinos, D., (0000-0001-7990-9564) Pausch, R., Pereira, D., (0000-0002-4738-6436) Püschel, T., Ricaud, J.-P., Rommeluere, P., Roussel, E., Rousseau, P., (0000-0002-2769-4749) Schöbel, S., Sebdaoui, M., (0000-0001-8965-1149) Steiniger, K., Tavakoli, K., Thaury, C., (0000-0002-6463-5406) Ufer, P., Valleau, M., Vandenberghe, M., Veteran, J., (0000-0003-0390-7671) Schramm, U., Couprie, M.-E., Labat, M., (0000-0001-9129-4208) Couperus Cabadağ, J. P., Ghaith, A., (0000-0002-4626-0049) Irman, A., Berlioux, A., Berteaud, P., Blache, F., (0000-0002-1919-8585) Bock, S., Bouvet, F., Briquez, F., Chang, Y.-Y., Corde, S., (0000-0002-3844-3697) Debus, A., Oliveira, C., Duval, J.-P., Dietrich, Y., El Ajjouri, M., Eisenmann, C., Gautier, J., Gebhardt, R., Grams, S., Helbig, U., Herbeaux, C., Hubert, N., Kitegi, C., Kononenko, O., (0000-0002-8145-5837) Kuntzsch, M., La Berge, M., Le, S., Leluan, B., Loulergue, A., Malka, V., Marteau, F., Huy N. Guyen, M., Oumbarek-Espinos, D., (0000-0001-7990-9564) Pausch, R., Pereira, D., (0000-0002-4738-6436) Püschel, T., Ricaud, J.-P., Rommeluere, P., Roussel, E., Rousseau, P., (0000-0002-2769-4749) Schöbel, S., Sebdaoui, M., (0000-0001-8965-1149) Steiniger, K., Tavakoli, K., Thaury, C., (0000-0002-6463-5406) Ufer, P., Valleau, M., Vandenberghe, M., Veteran, J., (0000-0003-0390-7671) Schramm, U., and Couprie, M.-E.

Abstract

Laser Plasma Accelerators (LPAs), harnessing gigavolt-per-centimeter accelerating fields, can generate high peak current, low emittance and GeV class electron beams paving the way for the realization of future compact free-electron lasers (FELs). Here, we report on the commissioning of the COXINEL beamline driven by the HZDR plasma accelerator and experimental demonstration of FEL lasing at 270 nm in a seeded configuration. Control over the radiation wavelength is achieved with an improved bandwidth stability. Furthermore, the appearance of interference fringes, resulting from the interaction between the phase-locked emitted radiation and the seed, confirms longitudinal coherence, representing a key feature of such a seeded FEL. These results are cross-checked with simulations, ELEGANT for beam optics and GENESIS for FEL radiation. We anticipate a navigable pathway toward smaller-scale free-electron lasers at extreme ultra-violet wavelengths.

Published

2022

21. Stable Multi-Day Performance of a Laser Wakefield Accelerator for FEL Applications

Author

(0000-0001-9129-4208) Couperus Cabadağ, J. P., (0000-0002-1919-8585) Bock, S., Chang, Y.-Y., (0000-0002-3844-3697) Debus, A., Gebhardt, R., Ghaith, A., Helbig, U., (0000-0002-4626-0049) Irman, A., (0000-0001-9759-1166) Köhler, A., Laberge, M., (0000-0001-7990-9564) Pausch, R., (0000-0002-4738-6436) Püschel, T., (0000-0003-0390-7671) Schramm, U., Schöbel, S., (0000-0001-8965-1149) Steiniger, K., Ufer, P., (0000-0003-4362-3438) Zarini, O., Roussel, E., Couprie, M.- . E., Labat, M., Downer, M. C., (0000-0001-9129-4208) Couperus Cabadağ, J. P., (0000-0002-1919-8585) Bock, S., Chang, Y.-Y., (0000-0002-3844-3697) Debus, A., Gebhardt, R., Ghaith, A., Helbig, U., (0000-0002-4626-0049) Irman, A., (0000-0001-9759-1166) Köhler, A., Laberge, M., (0000-0001-7990-9564) Pausch, R., (0000-0002-4738-6436) Püschel, T., (0000-0003-0390-7671) Schramm, U., Schöbel, S., (0000-0001-8965-1149) Steiniger, K., Ufer, P., (0000-0003-4362-3438) Zarini, O., Roussel, E., Couprie, M.- . E., Labat, M., and Downer, M. C.

Abstract

We report on the operation of the DRACO Laser Driven electron source for stable multi-day operation for Free Electron Laser (FEL) applications. The nC-class accelerator can deliver charge densities around 10 pC/MeV , <1 mrad rms divergence at energies up to 0.5 GeV and peak currents of over 10 kA*. Precise characterisation is paramount for controlled operation, including: spectrally resolved charge diagnostic, coherent optical transition radiation (TR) to resolve microbunch beam structures** and TR-based multioctave high-dynamic range spectrometry for sub-fs resolved characterisation of the 10 fs rms electron bunches***. Achieved stability allows for systematic exploration of demanding applications, resulting in the recent demonstration of the first LWFA based Beam-driven Plasma Wakefield Accelerator (LPWFA)****. Fulfilling the high demands required for FEL operation, the COXINEL manipulation line***** developed at Synchotron SOLEIL has recently been installed at our facility. Based on successful beam transport of over 13000 shots within 9 experimental days during commissioning, we were able to demonstrate the very first operation of a seeded FEL driven by a laser plasma accelerator******. * J.P. Couperus et al., Nat. Comm. 8 (2017) ** O. Zarini et al., PRAB (2022) *** A. Lumpkin et al., Phys. Rev. Lett., 125, 014801 (2020) **** T. Kurz, T. Heinemann et al., Nature Commun., 12, 2895 (2021) ***** M.-E. Couprie et al., J. Phys B, 47, 234001 (2014) & M.-E. Couprie et al., PPCF, 58, 034020 (2016) ****** M. Labat et al., in review, (2022), doi:10.21203/rs.3.rs-1692828/v1

Published

2022

22. Erratum to: EuPRAXIA Conceptual Design Report (The European Physical Journal Special Topics, (2020), 229, 24, (3675-4284), 10.1140/epjst/e2020-000127-8)

Author

Assmann R. W., Weikum M. K., Akhter T., Alesini D., Alexandrova A. S., Anania M. P., Andreev N. E., Andriyash I., Artioli M., Aschikhin A., Audet T., Bacci A., Barna I. F., Bartocci S., Bayramian A., Beaton A., Beck A., Bellaveglia M., Beluze A., Bernhard A., Biagioni A., Bielawski S., Bisesto F. G., Bonatto A., Boulton L., Brandi F., Brinkmann R., Briquez F., Brottier F., Brundermann E., Buscher M., Buonomo B., Bussmann M. H., Bussolino G., Campana P., Cantarella S., Cassou K., Chance A., Chen M., Chiadroni E., Cianchi A., Cioeta F., Clarke J. A., Cole J. M., Costa G., Couprie M. -E., Cowley J., Croia M., Cros B., Crump P. A., D'Arcy R., Dattoli G., Del Dotto A., Delerue N., Del Franco M., Delinikolas P., De Nicola S., Dias J. M., Di Giovenale D., Diomede M., Di Pasquale E., Di Pirro G., Di Raddo G., Dorda U., Erlandson A. C., Ertel K., Esposito A., Falcoz F., Falone A., Fedele R., Ferran Pousa A., Ferrario M., Filippi F., Fils J., Fiore G., Fiorito R., Fonseca R. A., Franzini G., Galimberti M., Gallo A., Galvin T. C., Ghaith A., Ghigo A., Giove D., Giribono A., Gizzi L. A., Gruner F. J., Habib A. F., Haefner C., Heinemann T., Helm A., Hidding B., Holzer B. J., Hooker S. M., Hosokai T., Hubner M., Ibison M., Incremona S., Irman A., Iungo F., Jafarinia F. J., Jakobsson O., Jaroszynski D. A., Jaster-Merz S., Joshi C., Kaluza M., Kando M., Karger O. S., Karsch S., Khazanov E., Khikhlukha D., Kirchen M., Kirwan G., Kitegi C., Knetsch A., Kocon D., Koester P., Kononenko O. S., Korn G., Kostyukov I., Kruchinin K. O., Labate L., Le Blanc C., Lechner C., Lee P., Leemans W., Lehrach A., Li X., Li Y., Libov V., Lifschitz A., Lindstrom C. A., Litvinenko V., Lu W., Lundh O., Maier A. R., Malka V., Manahan G. G., Mangles S. P. D., Marcelli A., Marchetti B., Marcouille O., Marocchino A., Marteau F., Martinez de la Ossa A., Martins J. L., Mason P. D., Massimo F., Mathieu F., Maynard G., Mazzotta Z., Mironov S., Molodozhentsev A. Y., Morante S., Mosnier A., Mostacci A., Muller A. -S., Murphy C. D., Najmudin Z., Nghiem P. A. P., Nguyen F., Niknejadi P., Nutter A., Osterhoff J., Oumbarek Espinos D., Paillard J. -L., Papadopoulos D. N., Patrizi B., Pattathil R., Pellegrino L., Petralia A., Petrillo V., Piersanti L., Pocsai M. A., Poder K., Pompili R., Pribyl L., Pugacheva D., Reagan B. A., Resta-Lopez J., Ricci R., Romeo S., Rossetti Conti M., Rossi A. R., Rossmanith R., Rotundo U., Roussel E., Sabbatini L., Santangelo P., Sarri G., Schaper L., Scherkl P., Schramm U., Schroeder C. B., Scifo J., Serafini L., Sharma G., Sheng Z. M., Shpakov V., Siders C. W., Silva L. O., Silva T., Simon C., Simon-Boisson C., Sinha U., Sistrunk E., Specka A., Spinka T. M., Stecchi A., Stella A., Stellato F., Streeter M. J. V., Sutherland A., Svystun E. N., Symes D., Szwaj C., Tauscher G. E., Terzani D., Toci G., Tomassini P., Torres R., Ullmann D., Vaccarezza C., Valleau M., Vannini M., Vannozzi A., Vescovi S., Vieira J. M., Villa F., Wahlstrom C. -G., Walczak R., Walker P. A., Wang K., Welsch A., Welsch C. P., Weng S. M., Wiggins S. M., Wolfenden J., Xia G., Yabashi M., Zhang H., Zhao Y., Zhu J., Zigler A., Assmann, R. W., Weikum, M. K., Akhter, T., Alesini, D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Artioli, M., Aschikhin, A., Audet, T., Bacci, A., Barna, I. F., Bartocci, S., Bayramian, A., Beaton, A., Beck, A., Bellaveglia, M., Beluze, A., Bernhard, A., Biagioni, A., Bielawski, S., Bisesto, F. G., Bonatto, A., Boulton, L., Brandi, F., Brinkmann, R., Briquez, F., Brottier, F., Brundermann, E., Buscher, M., Buonomo, B., Bussmann, M. H., Bussolino, G., Campana, P., Cantarella, S., Cassou, K., Chance, A., Chen, M., Chiadroni, E., Cianchi, A., Cioeta, F., Clarke, J. A., Cole, J. M., Costa, G., Couprie, M. -E., Cowley, J., Croia, M., Cros, B., Crump, P. A., D'Arcy, R., Dattoli, G., Del Dotto, A., Delerue, N., Del Franco, M., Delinikolas, P., De Nicola, S., Dias, J. M., Di Giovenale, D., Diomede, M., Di Pasquale, E., Di Pirro, G., Di Raddo, G., Dorda, U., Erlandson, A. C., Ertel, K., Esposito, A., Falcoz, F., Falone, A., Fedele, R., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiore, G., Fiorito, R., Fonseca, R. A., Franzini, G., Galimberti, M., Gallo, A., Galvin, T. C., Ghaith, A., Ghigo, A., Giove, D., Giribono, A., Gizzi, L. A., Gruner, F. J., Habib, A. F., Haefner, C., Heinemann, T., Helm, A., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Hubner, M., Ibison, M., Incremona, S., Irman, A., Iungo, F., Jafarinia, F. J., Jakobsson, O., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Kirchen, M., Kirwan, G., Kitegi, C., Knetsch, A., Kocon, D., Koester, P., Kononenko, O. S., Korn, G., Kostyukov, I., Kruchinin, K. O., Labate, L., Le Blanc, C., Lechner, C., Lee, P., Leemans, W., Lehrach, A., Li, X., Li, Y., Libov, V., Lifschitz, A., Lindstrom, C. A., Litvinenko, V., Lu, W., Lundh, O., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marcelli, A., Marchetti, B., Marcouille, O., Marocchino, A., Marteau, F., Martinez de la Ossa, A., Martins, J. L., Mason, P. D., Massimo, F., Mathieu, F., Maynard, G., Mazzotta, Z., Mironov, S., Molodozhentsev, A. Y., Morante, S., Mosnier, A., Mostacci, A., Muller, A. -S., Murphy, C. D., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Nutter, A., Osterhoff, J., Oumbarek Espinos, D., Paillard, J. -L., Papadopoulos, D. N., Patrizi, B., Pattathil, R., Pellegrino, L., Petralia, A., Petrillo, V., Piersanti, L., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Reagan, B. A., Resta-Lopez, J., Ricci, R., Romeo, S., Rossetti Conti, M., Rossi, A. R., Rossmanith, R., Rotundo, U., Roussel, E., Sabbatini, L., Santangelo, P., Sarri, G., Schaper, L., Scherkl, P., Schramm, U., Schroeder, C. B., Scifo, J., Serafini, L., Sharma, G., Sheng, Z. M., Shpakov, V., Siders, C. W., Silva, L. O., Silva, T., Simon, C., Simon-Boisson, C., Sinha, U., Sistrunk, E., Specka, A., Spinka, T. M., Stecchi, A., Stella, A., Stellato, F., Streeter, M. J. V., Sutherland, A., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G. E., Terzani, D., Toci, G., Tomassini, P., Torres, R., Ullmann, D., Vaccarezza, C., Valleau, M., Vannini, M., Vannozzi, A., Vescovi, S., Vieira, J. M., Villa, F., Wahlstrom, C. -G., Walczak, R., Walker, P. A., Wang, K., Welsch, A., Welsch, C. P., Weng, S. M., Wiggins, S. M., Wolfenden, J., Xia, G., Yabashi, M., Zhang, H., Zhao, Y., Zhu, J., and Zigler, A.

Abstract

Figure 20.1 was not correct in the published article. The original article has been corrected. The published apologizes for the inconvenience.

Published

2020

23. SOLEIL’S Process Automation Improvement Using Industrial Robots

Author

Abiven, Y. M., primary, Munoz, L. E., additional, Briquez, F., additional, Couprie, M. E., additional, Elkaim, E., additional, Medjoubi, K., additional, Noureddine, A., additional, Somogyi, A., additional, and Valléau, M., additional

Published

2021

24. 2020 Roadmap on Plasma Accelerators

Author

Albert, F., Couprie, M.-E., Debus, A., Downer, M., Faure, J., Flacco, A., Gizzi, L., Grismayer, T., Huebl, A., Joshi, C., Labat, M., Leemans, W., Maier, A., Mangles, S., Mason, P., Mathieu, F., Muggli, P., Nishiuchi, M., Osterhoff, J., Rajeev, P., Schramm, U., Schreiber, J., Thomas, A., Vay, J.-L., Vranic, M., Zeil, K., Albert, F., Couprie, M.-E., Debus, A., Downer, M., Faure, J., Flacco, A., Gizzi, L., Grismayer, T., Huebl, A., Joshi, C., Labat, M., Leemans, W., Maier, A., Mangles, S., Mason, P., Mathieu, F., Muggli, P., Nishiuchi, M., Osterhoff, J., Rajeev, P., Schramm, U., Schreiber, J., Thomas, A., Vay, J.-L., Vranic, M., and Zeil, K.

Abstract

Plasma-based accelerators use the strong electromagnetic fields that can be supported by plasmas to accelerate charged particles to high energies. Accelerating field structures in plasma can be generated by powerful laser pulses or charged particle beams. This research field has recently transitioned from involving a few small-scale efforts to the development of national and international networks of scientists supported by substantial investment in large-scale research infrastructure. In this New Journal of Physics 2020 Plasma Accelerator Roadmap, perspectives from experts in this field provide a summary overview of the field and insights into the research needs and developments for an international audience of scientists, including graduate students and researchers entering the field.

Published

2021

25. Remaining noise-induced spatiotemporal dynamics in a free electron laser stabilized by feedback control

Author

Szwaj, C., Bielawski, S., Couprie, M.-E., Bruni, C., Hosaka, M., Mochihashi, A., and Katoh, M.

Published

2010

26. Coherent harmonic generation on UVSOR-II storage ring

Author

Labat, M., Hosaka, M., Mochihashi, A., Shimada, M., Katoh, M., Lambert, G., Hara, T., Takashima, Y., and Couprie, M. E.

Published

2007

27. Suppression of limit cycles in a free electron laser

Author

Bruni, C., Bielawski, S., Orlandi, G. L., Garzella, D., and Couprie, M. E.

Published

2006

28. Magnetic design and manufacture of elliptical undulators HU256

Author

Batrakov, A., Briquez, F., Chubar, O., Churkin, I., Couprie, M.-E., Dael, A., Ilyin, I., Kolokolnikov, Yu., Roux, G., Rouvinski, E., Semenov, E., Steshov, A., Valleau, M., and Vobly, P.

Published

2007

29. First SOLEIL insertion devices are ready to produce photons for users

Author

Benabderrahmane, C., Berteaud, P., Briquez, F., Couprie, M.-E., Chubar, O., Dubois, L., Filhol, J.-M., Girault, M., Level, M.-P., Marcouillé, O., Marteau, F., Massal, M., Paulin, F., Valléau, M., Veteran, J., and Daël, A.

Published

2007

30. Storage ring free electron laser dynamics in presence of an auxiliary harmonic radio frequency cavity

Author

Thomas, C. A., Botman, J. I.M., Bruni, C., Orlandi, G., de Ninno, G., Garzella, D., and Couprie, M. E.

Published

2005

31. 2020 roadmap on plasma accelerators

Author

Albert, Félicie, primary, Couprie, M E, additional, Debus, Alexander, additional, Downer, Mike C, additional, Faure, Jérôme, additional, Flacco, Alessandro, additional, Gizzi, Leonida A, additional, Grismayer, Thomas, additional, Huebl, Axel, additional, Joshi, Chan, additional, Labat, M, additional, Leemans, Wim P, additional, Maier, Andreas R, additional, Mangles, Stuart P D, additional, Mason, Paul, additional, Mathieu, François, additional, Muggli, Patric, additional, Nishiuchi, Mamiko, additional, Osterhoff, Jens, additional, Rajeev, P P, additional, Schramm, Ulrich, additional, Schreiber, Jörg, additional, Thomas, Alec G R, additional, Vay, Jean-Luc, additional, Vranic, Marija, additional, and Zeil, Karl, additional

Published

2021

32. Free electron lasers driven by plasma accelerators: status and near-term prospects

Author

Emma, C., primary, Van Tilborg, J., additional, Assmann, R., additional, Barber, S., additional, Cianchi, A., additional, Corde, S., additional, Couprie, M. E., additional, D’Arcy, R., additional, Ferrario, M., additional, Habib, A. F., additional, Hidding, B., additional, Hogan, M. J., additional, Schroeder, C. B., additional, Marinelli, A., additional, Labat, M., additional, Li, R., additional, Liu, J., additional, Loulergue, A., additional, Osterhoff, J., additional, Maier, A. R., additional, McNeil, B. W. J., additional, and Wang, W., additional

Published

2021

33. Storage ring free electron laser and longitudinal instabilities experiments

Author

Couprie, M. E.

Published

1999

34. Interferometry for full temporal reconstruction of laser-plasma accelerator-based seeded free electron lasers

Author

Labat, M, primary, Bielawski, S, additional, Loulergue, A, additional, Corde, S, additional, Couprie, M-E, additional, and Roussel, E, additional

Published

2020

35. Conference Committees

Author

Minehara, Eisuke J., primary, Awazu, Kunio, additional, Shimoda, Koichi, additional, Awazu, K., additional, Hama, H., additional, Harami, T., additional, Imasaki, K., additional, Kimura, H., additional, Kimura, T., additional, Kuroda, H., additional, Shimoda, K., additional, Tomimasu, T., additional, Tomita, T., additional, Yamada, K., additional, Yamazaki, T., additional, Ben-Zvi, I., additional, Colson, W.B., additional, Couprie, M.-E., additional, Gover, A., additional, Kim, K.-J., additional, Li, Y., additional, Litvinenko, V.N., additional, Minehara, E.J., additional, Neil, G.R., additional, Pellegrini, C., additional, Poole, M.W., additional, Renieri, A., additional, Roberson, C.W., additional, Rossbach, J., additional, Smith, T., additional, van der Meer, A.F.G., additional, Vinokurov, N.A., additional, Walker, R., additional, Hajima, Ryoichi, additional, Kimura, Toyoaki, additional, Bakker, R., additional, Benson, S., additional, Brau, C., additional, Dai, J., additional, Dattoli, G., additional, Faatz, B., additional, Freund, H.P., additional, Galayda, J.N., additional, Ginzburg, N., additional, Glotin, F., additional, Hajima, R., additional, Hiramatsu, S., additional, Kato, R., additional, Krinsky, S., additional, Lee, B.C., additional, Lumpkin, A.H., additional, Nguyen, D., additional, Ohgaki, H., additional, Pflüger, J., additional, Reiche, S., additional, Shimizu, Y., additional, Shinn, M., additional, Shintake, T., additional, Shu, X., additional, and Xie, M., additional

Published

2004

36. Eupraxia, A Step Toward A Plasma-Wakefield Based Accelerator With High Beam Quality

Author

Nghiem, P A P, primary, Alesini, D, additional, Aschikhin, A, additional, Assmann, R W, additional, Audet, T, additional, Beck, A, additional, Chance, A, additional, Chen, M, additional, Chiadroni, E, additional, Cianchi, A, additional, Clarke, J A, additional, Couprie, M E, additional, Croia, M, additional, Cros, B, additional, Dattoli, G, additional, Del Dotto, A, additional, Delerue, N, additional, Dorda, U, additional, Ferran Pousa, A, additional, Ferrario, M, additional, Fonseca, R A, additional, Ghaith, A, additional, Giribono, A, additional, Gizzi, L A, additional, Helm, A, additional, Hidding, B, additional, Hooker, S M, additional, Ibison, M G, additional, Jaroszynski, D A, additional, Kruchinin, K O, additional, Labate, L, additional, Lee, P, additional, Li, X, additional, Li, F Y, additional, Libov, V, additional, Marchetti, B, additional, Martinez de la Ossa, A, additional, Marx, D, additional, Massimo, F, additional, Mathieu, F, additional, Maynard, G, additional, Mazzotta, Z, additional, Mehrling, T J, additional, Molodozhentsev, A Y, additional, Mosnier, A, additional, Mostacci, A, additional, Najmudin, Z, additional, Nguyen, F, additional, Niknejadi, P, additional, Oumbarek Espinos, D, additional, Pattathil, R, additional, Pompili, R, additional, Romeo, S, additional, Rossi, A R, additional, Schaper, L, additional, Sheng, Z M, additional, Shpakov, V, additional, Silva, L O, additional, Silva, T, additional, Simon, C, additional, Specka, A, additional, Stella, A, additional, Streeter, M J V, additional, Svystun, E N, additional, Symes, D, additional, Terzani, D, additional, Toci, G, additional, Tomassini, P, additional, Vaccarezza, C, additional, Vieira, J M, additional, Vujanovic, M, additional, Walczak, R, additional, Walker, P A, additional, Weikum, M K, additional, Welsch, C P, additional, Weng, S M, additional, Wiggins, S M, additional, Wolfenden, J, additional, Yoffe, S, additional, and Zhu, J, additional

Published

2019

37. Status of the Horizon 2020 EuPRAXIA conceptual design study*

Author

Weikum, M K, primary, Akhter, T, additional, Alesini, D, additional, Alexandrova, A S, additional, Anania, M P, additional, Andreev, N E, additional, Andriyash, I A, additional, Aschikhin, A, additional, Assmann, R W, additional, Audet, T, additional, Bacci, A, additional, Barna, I F, additional, Beaton, A, additional, Beck, A, additional, Beluze, A, additional, Bernhard, A, additional, Bielawski, S, additional, Bisesto, F G, additional, Brandi, F, additional, Brinkmann, R, additional, Bruendermann, E, additional, Büscher, M, additional, Bussmann, M H, additional, Bussolino, G, additional, Chance, A, additional, Chen, M, additional, Chiadroni, E, additional, Cianchi, A, additional, Clarke, J A, additional, Cole, J, additional, Couprie, M E, additional, Croia, M, additional, Cros, B, additional, Crump, P A, additional, Dattoli, G, additional, Del Dotto, A, additional, Delerue, N, additional, De Nicola, S, additional, Dias, J M, additional, Dorda, U, additional, Fedele, R, additional, Ferran Pousa, A, additional, Ferrario, M, additional, Filippi, F, additional, Fiore, G, additional, Fonseca, R A, additional, Galimberti, M, additional, Gallo, A, additional, Ghaith, A, additional, Giove, D, additional, Giribono, A, additional, Gizzi, L A, additional, Grüner, F J, additional, Habib, A F, additional, Haefner, C, additional, Heinemann, T, additional, Hidding, B, additional, Holzer, B J, additional, Hooker, S M, additional, Hosokai, T, additional, Huebner, M, additional, Irman, A, additional, Jafarinia, F J, additional, Jaroszynski, D A, additional, Joshi, C, additional, Kaluza, M, additional, Kando, M, additional, Karger, O S, additional, Karsch, S, additional, Khazanov, E, additional, Khikhlukha, D, additional, Knetsch, A, additional, Kocon, D, additional, Koester, P, additional, Kononenko, O S, additional, Korn, G, additional, Kostyukov, I, additional, Kruchinin, K O, additional, Labate, L, additional, Blanc, C Le, additional, Lechner, C, additional, Leemans, W, additional, Lehrach, A, additional, Li, X, additional, Libov, V, additional, Lifschitz, A, additional, Litvinenko, V, additional, Lu, W, additional, Lundh, O, additional, Maier, A R, additional, Malka, V, additional, Manahan, G G, additional, Mangles, S P D, additional, Marchetti, B, additional, Martinez de la Ossa, A, additional, Martins, J L, additional, Mason, P D, additional, Massimo, F, additional, Mathieu, F, additional, Maynard, G, additional, Mazzotta, Z, additional, Molodozhentsev, A Y, additional, Mostacci, A, additional, Mueller, A - S, additional, Murphy, C D, additional, Najmudin, Z, additional, Nghiem, P A P, additional, Nguyen, F, additional, Niknejadi, P, additional, Osterhoff, J, additional, Oumbarek Espinos, D, additional, Papadopoulos, D N, additional, Patrizi, B, additional, Petrillo, V, additional, Pocsai, M A, additional, Poder, K, additional, Pompili, R, additional, Pribyl, L, additional, Pugacheva, D, additional, Rajeev, P P, additional, Romeo, S, additional, Rossetti Conti, M, additional, Rossi, A R, additional, Rossmanith, R, additional, Roussel, E, additional, Sahai, A A, additional, Sarri, G, additional, Schaper, L, additional, Scherkl, P, additional, Schramm, U, additional, Schroeder, C B, additional, Scifo, J, additional, Serafini, L, additional, Sheng, Z M, additional, Siders, C, additional, Silva, L O, additional, Silva, T, additional, Simon, C, additional, Sinha, U, additional, Specka, A, additional, Streeter, M J V, additional, Svystun, E N, additional, Symes, D, additional, Szwaj, C, additional, Tauscher, G E, additional, Terzani, D, additional, Thompson, N, additional, Toci, G, additional, Tomassini, P, additional, Torres, R, additional, Ullmann, D, additional, Vaccarezza, C, additional, Vannini, M, additional, Vieira, J M, additional, Villa, F, additional, Wahlstrom, C - G, additional, Walczak, R, additional, Walker, P A, additional, Wang, K, additional, Welsch, C P, additional, Wiggins, S M, additional, Wolfenden, J, additional, Xia, G, additional, Yabashi, M, additional, Zhu, J, additional, and Zigler, A, additional

Published

2019

38. Production of high energy photons with in vacuum wigglers: From SOLEIL wiggler to MAXIV wiggler

Author

Marcouille, O., primary, Marteau, F., additional, Tripathi, S., additional, Thiel, A., additional, Tarawneh, H., additional, Tavakoli, K., additional, Marlats, J. L., additional, Mary, A., additional, Valleau, M., additional, Vétéran, J., additional, Chapuis, L., additional, Berteaud, P., additional, Ajjouri, T. El, additional, Brunelle, P., additional, Herbeaux, C., additional, Bechu, N., additional, Lestrade, A., additional, Itie, J.-P., additional, Nadji, A., additional, Guignot, N., additional, and Couprie, M.-E., additional

Published

2019

39. Towards a free electron laser using laser plasma acceleration on COXINEL

Author

Couprie, M. E., primary, André, T., additional, Blache, F., additional, Bouvet, F., additional, Briquez, F., additional, Dennetière, D., additional, Dietrich, Y., additional, de Oliviera, C., additional, Duval, J. P., additional, Ajjouri, M. El, additional, Ghaith, A., additional, Herbeaux, C., additional, Hubert, N., additional, Khojoyan, M., additional, Kitégi, C., additional, Labat, M., additional, Leclercq, N., additional, Lestrade, A., additional, Loulergue, A., additional, Marcouillé, O., additional, Marteau, F., additional, Oumbarek, D., additional, Polack, F., additional, Rommeluère, P., additional, Sebdaoui, M., additional, Tavakoli, K., additional, Valléau, M., additional, Andriyash, I. A., additional, Benabderrahmane, C., additional, Corde, S., additional, Gautier, J., additional, Goddet, J. P., additional, Lambert, G., additional, Mahieu, B., additional, Phuoc, K. Ta, additional, Tafzi, A., additional, Thaury, C., additional, Smartsev, S., additional, Malka, V., additional, Roussel, E., additional, Evain, C., additional, Szwaj, C., additional, and Bielawski, S., additional

Published

2019

40. EuPRAXIA – a compact, cost-efficient particle and radiation source

Author

Weikum, M. K., primary, Akhter, T., additional, Alesini, P. D., additional, Alexandrova, A. S., additional, Anania, M. P., additional, Andreev, N. E., additional, Andriyash, I., additional, Aschikhin, A., additional, Assmann, R. W., additional, Audet, T., additional, Bacci, A., additional, Barna, I. F., additional, Beaton, A., additional, Beck, A., additional, Beluze, A., additional, Bernhard, A., additional, Bielawski, S., additional, Bisesto, F. G., additional, Brandi, F., additional, Bringer, O., additional, Brinkmann, R., additional, Bründermann, E., additional, Büscher, M., additional, Bussmann, M., additional, Bussolino, G. C., additional, Chance, A., additional, Chanteloup, J. C., additional, Chen, M., additional, Chiadroni, E., additional, Cianchi, A., additional, Clarke, J., additional, Cole, J., additional, Couprie, M. E., additional, Croia, M., additional, Cros, B., additional, Crump, P., additional, Dattoli, G., additional, Delerue, N., additional, Delferriere, O., additional, Delinikolas, P., additional, De Nicola, S., additional, Dias, J., additional, Dorda, U., additional, Fedele, R., additional, Pousa, A. Ferran, additional, Ferrario, M., additional, Filippi, F., additional, Fils, J., additional, Fiore, G., additional, Fonseca, R. A., additional, Galimberti, M., additional, Gallo, A., additional, Garzella, D., additional, Gastinel, P., additional, Giove, D., additional, Giribono, A., additional, Gizzi, L. A., additional, Grüner, F. J., additional, Habib, A. F., additional, Heinemann, T., additional, Hidding, B., additional, Holzer, B. J., additional, Hooker, S. M., additional, Hosokai, T., additional, Hübner, M., additional, Irman, A., additional, Jafarinia, F., additional, Jaroszynski, D. A., additional, Jaster-Merz, S., additional, Joshi, C., additional, Kaluza, M. C., additional, Kando, M., additional, Karger, O. S., additional, Karsch, S., additional, Khazanov, E., additional, Khikhlukha, D., additional, Knetsch, A., additional, Kocon, D., additional, Koester, P., additional, Kononenko, O., additional, Korn, G., additional, Kostyukov, I., additional, Kruchinin, K., additional, Labate, L., additional, Lechner, C., additional, Leemans, W. P., additional, Lehrach, A., additional, Li, F. Y., additional, Li, X., additional, Libov, V., additional, Lifschitz, A., additional, Litvinenko, V., additional, Lu, W., additional, Lundh, O., additional, Maier, A. R., additional, Malka, V., additional, Manahan, G. G., additional, Mangles, S. P. D., additional, Marchetti, B., additional, Marocchino, A., additional, de la Ossa, A. Martinez, additional, Martins, J. L., additional, Mason, P., additional, Massimo, F., additional, Mathieu, F., additional, Maynard, G., additional, Mazzotta, Z., additional, Mehrling, T. J., additional, Molodozhentsev, A. Y., additional, Mostacci, A., additional, Müller, A. S., additional, Murphy, C. D., additional, Najmudin, Z., additional, Nghiem, P. A. P., additional, Nguyen, F., additional, Niknejadi, P., additional, Osterhoff, J., additional, Papadopoulos, D., additional, Patrizi, B., additional, Petrillo, V., additional, Pocsai, M. A., additional, Poder, K., additional, Pompili, R., additional, Pribyl, L., additional, Pugacheva, D., additional, Romeo, S., additional, Rajeev, P. P., additional, Conti, M. Rossetti, additional, Rossi, A. R., additional, Rossmanith, R., additional, Roussel, E., additional, Sahai, A. A., additional, Sarri, G., additional, Schaper, L., additional, Scherkl, P., additional, Schramm, U., additional, Schroeder, C. B., additional, Schwindling, J., additional, Scifo, J., additional, Serafini, L., additional, Sheng, Z. M., additional, Silva, L. O., additional, Silva, T., additional, Simon, C., additional, Sinha, U., additional, Specka, A., additional, Streeter, M. J. V., additional, Svystun, E. N., additional, Symes, D., additional, Szwaj, C., additional, Tauscher, G., additional, Terzani, D., additional, Thompson, N., additional, Toci, G., additional, Tomassini, P., additional, Torres, R., additional, Ullmann, D., additional, Vaccarezza, C., additional, Vannini, M., additional, Vieira, J. M., additional, Villa, F., additional, Wahlström, C. -G., additional, Walczak, R., additional, Walker, P. A., additional, Wang, K., additional, Welsch, C. P., additional, Wolfenden, J., additional, Xia, G., additional, Yabashi, M., additional, Yu, L., additional, Zhu, J., additional, and Zigler, A., additional

Published

2019

41. Horizon 2020 EuPRAXIA design study

Author

EuPRAXIA Collaboration, Walker, P. A., Alesini, P. D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Aschikhin, A., Assmann, R. W., Audet, T., Bacci, A., Barna, I. F., Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F. G., Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G. C., Chance, A., Chanteloup, J. C., Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M. E., Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R. A., Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Haefner, L. C., Heinemann, T., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Irman, A., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M. C., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W. P., Lehrach, A., Li, F. Y., Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marchetti, B., Marocchino, A., Martinez de la Ossa, A., Martins, J. L., Massimo, F., Mathieu, F., Maynard, G., Mehrling, T. J., Molodozhentsev, A. Y., Mosnier, A., Mostacci, A., Mueller, A. S., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A. R., Roussel, E., Sahai, A. A., Scherkl, P., Schramm, U., Schroeder, C. B., Schwindling, J., Scifo, J., Serafini, L., Sheng, Z. M., Silva, L. O., Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M. J. V., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G., Thomas, A. G. R., Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J. M., Villa, F., Wahlström, C-G., Walczak, R., Weikum, M. K., Welsch, C. P., Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., Zigler, A., Nguyen, F., and Dattoli, G.

Subjects

History, Technology, high-energy physics (HEP), compact X-ray sources, 01 natural sciences, 7. Clean energy, Education, accelerator facility, Acceleration, Physics and Astronomy (all), multi-GeV electron beams, 0103 physical sciences, ddc:530, 010306 general physics, QC, plasma, compact accelerators, Physics, QC717, Plasma acceleration, Settore FIS/01, Horizon (archaeology), 010308 nuclear & particles physics, light sources, Settore FIS/07, Mechanics, Computer Science Applications, Design study, Plasma Research Accelerator, plasma accelerator, Physics::Accelerator Physics, ddc:600

Abstract

The Horizon 2020 Project EuPRAXIA ("European Plasma Research Accelerator with eXcellence In Applications") is preparing a conceptual design report of a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach and will be used for photon science, high-energy physics (HEP) detector tests, and other applications such as compact X-ray sources for medical imaging or material processing. EuPRAXIA started in November 2015 and will deliver the design report in October 2019. EuPRAXIA aims to be included on the ESFRI roadmap in 2020. © Published under licence by IOP Publishing Ltd.

Published

2017

42. Horizon 2020 EuPRAXIA design study

Author

Walker, P. A., Alesini, P. D., Alexandrova, A. S., Anania, M. P., Andreev, N. E., Andriyash, I., Aschikhin, A., Assmann, R. W., Audet, T., Bacci, A., Barna, I. F., Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F. G., Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G. C., Chance, A., Chanteloup, J. C., Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M. E., Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Pousa, A. F., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R. A., Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Haefner, L. C., Heinemann, T., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Irman, A., Jaroszynski, D. A., Jaster-Merz, S., Joshi, C., Kaluza, M. C., Kando, M., Karger, O. S., Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W. P., Lehrach, A., Li, F. Y., Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marchetti, B., Marocchino, A., Ossa, A. M. D. L., Martins, J. L., Massimo, F., Mathieu, F., Maynard, G., Mehrling, T. J., Molodozhentsev, A. Y., Mosnier, A., Mostacci, A., Mueller, A. S., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A. R., Roussel, E., Sahai, A. A., Scherkl, P., Schramm, U., Schroeder, C. B., Schwindling, J., Scifo, J., Serafini, L., Sheng, Z. M., Silva, L. O., Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M. J. V., Svystun, E. N., Symes, D., Szwaj, C., Tauscher, G., Thomas, A. G. R., Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J. M., Villa, F., Wahlström, C.-G., Walczak, R., Weikum, M. K., Welsch, C. P., Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., and Zigler, J. Z. A.

Subjects

Plasma accelerator, Physics::Accelerator Physics

Abstract

The Horizon 2020 Project EuPRAXIA ("European Plasma Research Accelerator with eXcellence In Applications") is preparing a conceptual design report of a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach and will be used for photon science, high-energy physics (HEP) detector tests, and other applications such as compact X-ray sources for medical imaging or material processing. EuPRAXIA started in November 2015 and will deliver the design report in October 2019. EuPRAXIA aims to be included on the ESFRI roadmap in 2020.

Published

2017

43. Development and operation of a Pr2Fe14B based cryogenic permanent magnet undulator for a high spatial resolution x-ray beam line

Author

Benabderrahmane, C., Valleau, M., Ghaith, A., Berteaud, P., Chapuis, L., Marteau, F., Briquez, F., Marcouille, O., Marlats, J. L., Tavakoli, K., Mary, A., Zerbib, D., Lestrade, A., Louvet, M., Brunelle, P., Medjoubi, K., Nagaoka, R., Herbeaux, C., Bechu, N., Rommeluere, P., Somogyi, A., Chubar, O., Kitegi, C., Couprie, M. E., Synchrotron SOLEIL (SSOLEIL), Centre National de la Recherche Scientifique (CNRS), Synchrotron SOLEIL ( SSOLEIL ), and Centre National de la Recherche Scientifique ( CNRS )

Subjects

Accelerator Physics (physics.acc-ph), 41.60.-m, [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], FOS: Physical sciences, lcsh:QC770-798, Physics::Accelerator Physics, Physics - Accelerator Physics, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, 07.30.KF, [ PHYS.PHYS.PHYS-ACC-PH ] Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph]

Abstract

Short period, high field undulators are used to produce hard X-rays on synchrotron radiation based storage ring facilities of intermediate energy and enable short wavelength Free Electron Laser. Cryogenic permanent magnet undulators take benefit from improved magnetic properties of RE2Fe14B (Rare Earth based magnets) at low temperatures for achieving short period, high magnetic field and high coercivity. Using Pr2Fe14B instead of Nd2Fe14B, which is generally employed for undulators, avoids the limitation caused by the Spin Reorientation Transition phenomenon, and simplifies the cooling system by allowing the working temperature of the undulator to be directly at the liquid nitrogen one (77 K). We describe here the development of a full scale (2 m), 18 mm period Pr2Fe14B cryogenic permanent magnet undulator (U18). The design, construction and optimization, as well as magnetic measurements and shimming at low temperature are presented. The commissioning and operation of the undulator with the electron beam and spectrum measurement using the Nanoscopmium beamline at SOLEIL are also reported., To be submitted to PRAB

Published

2017

44. Robustness of a plasma acceleration based free electron laser

Author

Labat, M., primary, Loulergue, A., additional, Andre, T., additional, Andriyash, I. A., additional, Ghaith, A., additional, Khojoyan, M., additional, Marteau, F., additional, Valléau, M., additional, Briquez, F., additional, Benabderrahmane, C., additional, Marcouillé, O., additional, Evain, C., additional, and Couprie, M. E., additional

Published

2018

45. Development of Cryogenic Permanent Magnet Undulators at SOLEIL

Author

Valléau, M., primary, Briquez, F., additional, Ghaith, A., additional, Marteau, F., additional, Marcouillé, O., additional, Kitegi, C., additional, Blache, F., additional, and Couprie, M.-E., additional

Published

2018

46. Publisher Correction: Control of laser plasma accelerated electrons for light sources

Author

André, T., primary, Andriyash, I. A., additional, Loulergue, A., additional, Labat, M., additional, Roussel, E., additional, Ghaith, A., additional, Khojoyan, M., additional, Thaury, C., additional, Valléau, M., additional, Briquez, F., additional, Marteau, F., additional, Tavakoli, K., additional, N’Gotta, P., additional, Dietrich, Y., additional, Lambert, G., additional, Malka, V., additional, Benabderrahmane, C., additional, Vétéran, J., additional, Chapuis, L., additional, El Ajjouri, T., additional, Sebdaoui, M., additional, Hubert, N., additional, Marcouillé, O., additional, Berteaud, P., additional, Leclercq, N., additional, El Ajjouri, M., additional, Rommeluère, P., additional, Bouvet, F., additional, Duval, J. -P., additional, Kitegi, C., additional, Blache, F., additional, Mahieu, B., additional, Corde, S., additional, Gautier, J., additional, Ta Phuoc, K., additional, Goddet, J. P., additional, Lestrade, A., additional, Herbeaux, C., additional, Évain, C., additional, Szwaj, C., additional, Bielawski, S., additional, Tafzi, A., additional, Rousseau, P., additional, Smartsev, S., additional, Polack, F., additional, Dennetière, D., additional, Bourassin-Bouchet, C., additional, De Oliveira, C., additional, and Couprie, M. -E., additional

Published

2018

47. Control of laser plasma accelerated electrons for light sources

Author

André, T., primary, Andriyash, I. A., additional, Loulergue, A., additional, Labat, M., additional, Roussel, E., additional, Ghaith, A., additional, Khojoyan, M., additional, Thaury, C., additional, Valléau, M., additional, Briquez, F., additional, Marteau, F., additional, Tavakoli, K., additional, N’Gotta, P., additional, Dietrich, Y., additional, Lambert, G., additional, Malka, V., additional, Benabderrahmane, C., additional, Vétéran, J., additional, Chapuis, L., additional, El Ajjouri, T., additional, Sebdaoui, M., additional, Hubert, N., additional, Marcouillé, O., additional, Berteaud, P., additional, Leclercq, N., additional, El Ajjouri, M., additional, Rommeluère, P., additional, Bouvet, F., additional, Duval, J. -P., additional, Kitegi, C., additional, Blache, F., additional, Mahieu, B., additional, Corde, S., additional, Gautier, J., additional, Ta Phuoc, K., additional, Goddet, J. P., additional, Lestrade, A., additional, Herbeaux, C., additional, Évain, C., additional, Szwaj, C., additional, Bielawski, S., additional, Tafzi, A., additional, Rousseau, P., additional, Smartsev, S., additional, Polack, F., additional, Dennetière, D., additional, Bourassin-Bouchet, C., additional, De Oliveira, C., additional, and Couprie, M.-E., additional

Published

2018

48. Inter-dependence of the electron beam excitations with the free electron laser stability on the super-ACO storage ring

Author

Couprie, M.-E, Roux, R, Nutarelli, D, Renault, E, and Billardon, M

Published

1999

49. Horizon 2020 EuPRAXIA design study

Author

Walker, P A, Alesini, P D, Alexandrova, A S, Anania, M P, Andreev, N E, Andriyash, I., Aschikhin, A., Assmann, R W, Audet, T., Bacci, A., Barna, I F, Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F G, Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G C, Chance, A., Chanteloup, J C, Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M E, Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R A, Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L A, Grüner, F J, Habib, A F, Haefner, L C, Heinemann, T., Hidding, B., Holzer, B J, Hooker, S M, Hosokai, T., Irman, A., Jaroszynski, D A, Jaster-Merz, S., Joshi, C., Kaluza, M C, Kando, M., Karger, O S, Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W P, Lehrach, A., Li, F Y, Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A R, Malka, V., Manahan, G G, Mangles, S P D, Marchetti, B., Marocchino, A., Martinez de la Ossa, A, Martins, J L, Massimo, F., Mathieu, F., Maynard, G., Mehrling, T J, Molodozhentsev, A Y, Mosnier, A., Mostacci, A., Mueller, A S, Najmudin, Z., Nghiem, P A P, Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M A, Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A R, Roussel, E., Sahai, A A, Scherkl, P., Schramm, U., Schroeder, C B, Schwindling, J., Scifo, J., Serafini, L., Sheng, Z M, Silva, L O, Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M J V, Svystun, E N, Symes, D., Szwaj, C., Tauscher, G., Thomas, A G R, Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J M, Villa, F., Wahlström, C.-G., Walczak, R., Weikum, M K, Welsch, C P, Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., Zigler, A., Walker, P A, Alesini, P D, Alexandrova, A S, Anania, M P, Andreev, N E, Andriyash, I., Aschikhin, A., Assmann, R W, Audet, T., Bacci, A., Barna, I F, Beaton, A., Beck, A., Beluze, A., Bernhard, A., Bielawski, S., Bisesto, F G, Boedewadt, J., Brandi, F., Bringer, O., Brinkmann, R., Bründermann, E., Büscher, M., Bussmann, M., Bussolino, G C, Chance, A., Chanteloup, J C, Chen, M., Chiadroni, E., Cianchi, A., Clarke, J., Cole, J., Couprie, M E, Croia, M., Cros, B., Dale, J., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., Dias, J., Dorda, U., Ertel, K., Ferran Pousa, A., Ferrario, M., Filippi, F., Fils, J., Fiorito, R., Fonseca, R A, Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L A, Grüner, F J, Habib, A F, Haefner, L C, Heinemann, T., Hidding, B., Holzer, B J, Hooker, S M, Hosokai, T., Irman, A., Jaroszynski, D A, Jaster-Merz, S., Joshi, C., Kaluza, M C, Kando, M., Karger, O S, Karsch, S., Khazanov, E., Khikhlukha, D., Knetsch, A., Kocon, D., Koester, P., Kononenko, O., Korn, G., Kostyukov, I., Labate, L., Lechner, C., Leemans, W P, Lehrach, A., Li, F Y, Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Maier, A R, Malka, V., Manahan, G G, Mangles, S P D, Marchetti, B., Marocchino, A., Martinez de la Ossa, A, Martins, J L, Massimo, F., Mathieu, F., Maynard, G., Mehrling, T J, Molodozhentsev, A Y, Mosnier, A., Mostacci, A., Mueller, A S, Najmudin, Z., Nghiem, P A P, Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Pattathil, R., Petrillo, V., Pocsai, M A, Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rossi, A R, Roussel, E., Sahai, A A, Scherkl, P., Schramm, U., Schroeder, C B, Schwindling, J., Scifo, J., Serafini, L., Sheng, Z M, Silva, L O, Silva, T., Simon, C., Sinha, U., Specka, A., Streeter, M J V, Svystun, E N, Symes, D., Szwaj, C., Tauscher, G., Thomas, A G R, Thompson, N., Toci, G., Tomassini, P., Vaccarezza, C., Vannini, M., Vieira, J M, Villa, F., Wahlström, C.-G., Walczak, R., Weikum, M K, Welsch, C P, Wiemann, C., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., and Zigler, A.

Abstract

The Horizon 2020 Project EuPRAXIA ("European Plasma Research Accelerator with eXcellence In Applications") is preparing a conceptual design report of a highly compact and cost-effective European facility with multi-GeV electron beams using plasma as the acceleration medium. The accelerator facility will be based on a laser and/or a beam driven plasma acceleration approach and will be used for photon science, high-energy physics (HEP) detector tests, and other applications such as compact X-ray sources for medical imaging or material processing. EuPRAXIA started in November 2015 and will deliver the design report in October 2019. EuPRAXIA aims to be included on the ESFRI roadmap in 2020.

Published

2017

50. Variable high gradient permanent magnet quadrupole (QUAPEVA)

Author

Marteau, F., primary, Ghaith, A., additional, N'Gotta, P., additional, Benabderrahmane, C., additional, Valléau, M., additional, Kitegi, C., additional, Loulergue, A., additional, Vétéran, J., additional, Sebdaoui, M., additional, André, T., additional, Le Bec, G., additional, Chavanne, J., additional, Vallerand, C., additional, Oumbarek, D., additional, Cosson, O., additional, Forest, F., additional, Jivkov, P., additional, Lancelot, J. L., additional, and Couprie, M. E., additional

Published

2017