Zobrazeno 1 - 10
of 337
pro vyhledávání: '"Marteau, F ."'
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.
K zobrazení výsledku je třeba se přihlásit.
Autor:
Labat, M., Loulergue, L., Andre, T., Andriyash, I., Ghaith, A., Khojoyan, M., Marteau, F., Valleau, M., Briquez, F., Benabderrahmane, C.
Publikováno v:
Phys. Rev. Accel. Beams 21, 114802 (2018)
Laser Plasma Accelerators (LPA) can sustain GeV/m accelerating fields offering outstanding new possibilities for compact applications. Despite the impressive recent developments, the LPA beam quality is still significantly lower than in the conventio
Externí odkaz:
http://arxiv.org/abs/1806.10848
Autor:
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., Couprie, M. E.
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, wh
Externí odkaz:
http://arxiv.org/abs/1712.03857
Autor:
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., Couprie, M. E.
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 ele
Externí odkaz:
http://arxiv.org/abs/1706.04355
Autor:
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.
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
Externí odkaz:
http://arxiv.org/abs/1612.03748
Autor:
Khojoyan, M, Briquez, F., Labat, M., Loulergue, A., Marcouillé, O., Marteau, F., Sharma, G., Couprie, M. E.
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 (
Externí odkaz:
http://arxiv.org/abs/1602.04965
Autor:
Ghaith, A. *, Kitegi, C., André, T., Valléau, M., Marteau, F., Vétéran, J., Blache, F., Benabderrahmane, C., Cosson, O., Forest, F., Jivkov, P., Lancelot, J.L., Couprie, M.E.
Publikováno v:
In Nuclear Inst. and Methods in Physics Research, A 12 November 2018 909:290-293
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
K zobrazení výsledku je třeba se přihlásit.
K zobrazení výsledku je třeba se přihlásit.
Autor:
Labat, M., Couperus Cabadağ, J. P., Ghaith, A., Irman, A., Berlioux, A., Berteaud, P., Blache, F., Bock, S., Bouvet, F., Briquez, F., Chang, Y.-Y., Corde, S., 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., Kuntzsch, M., La Berge, M., Le, S., Leluan, B., Loulergue, A., Malka, V., Marteau, F., Huy N. Guyen, M., Oumbarek-Espinos, D., Pausch, R., Pereira, D., Püschel, T., Ricaud, J.-P., Rommeluere, P., Roussel, E., Rousseau, P., Schöbel, S., Sebdaoui, M., Steiniger, K., Tavakoli, K., Thaury, C., Ufer, P., Valleau, M., Vandenberghe, M., Veteran, J., Schramm, U., Couprie, M.-E.
Publikováno v:
Advanced Accelerator Concepts (AAC), 06.-11.11.2022, Long Island, New York, USA
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). Her
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______4577::6bb313d5cc7f0fbabd178b2471632f9a
https://www.hzdr.de/publications/Publ-35982-1
https://www.hzdr.de/publications/Publ-35982-1
Autor:
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.
Figure 20.1 was not correct in the published article. The original article has been corrected. The published apologizes for the inconvenience.
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=od______3730::cabdaa5aed280d7502b21c78b6424a84
http://hdl.handle.net/11588/867687
http://hdl.handle.net/11588/867687