Your search keyword '"Barna, I F"' showing total 27 results

1. Analytic solutions for irregular diffusion equations with concentration dependent diffusion coefficients

Author

Barna, I. F. and Matyas, L.

Subjects

Condensed Matter - Statistical Mechanics, Mathematical Physics, Nonlinear Sciences - Exactly Solvable and Integrable Systems

Abstract

We investigate diffusion equations which have concentration dependent diffusion coefficients with physically two relevant Ans\"atze, the self-similar and the traveling wave Ansatz. We found that for power-law concentration dependence some of the results can be expressed with a general analytic implicit formulas for both trial functions. For the self-similar case some of the solutions can be given with a formula containing the hypergeometric function. For the traveling wave case different analytic formulas are given for different exponents. For some physically reasonable parameter sets the direct solutions are given and analyzed in details., Comment: 13 pages 3 figures

Published

2023

2. Even and odd self-similar solutions of the diffusion equation for infinite horizon

Author

Mátyás, L. and Barna, I. F.

Subjects

Physics - Classical Physics, Mathematics - Analysis of PDEs

Abstract

In the description of transport phenomena an important aspect represents the diffusion. In certain cases the diffusion may appear together with convection. In this paper we study the diffusion equation with the self similar Ansatz. With an appropriate change of variables we found original solutions of diffusion equation for infinite horizon. Here we present the even solutions of diffusion equation for the boundary conditions presented. For completeness the odd solutions are also mentioned as well, as part of the previous works. Finally, the diffusion equation with constant source term is discussed, which also has even and odd solutions, too, Comment: 17 pages, 9 figures

Published

2023

3. Time-dependent analytic solutions for water waves above sea of varying depths

Author

Barna, I. F., Pocsai, M. A., and Mátyás, L.

Subjects

Nonlinear Sciences - Exactly Solvable and Integrable Systems, Physics - Atmospheric and Oceanic Physics

Abstract

We investigate a hydrodynamic equation system which - with some approximation - is capable to describe the tsunami propagation in the open ocean with the time-dependent self-similar Ansatz. We found analytic solutions how the wave height and velocity behave in time and space for constant and linear seabed functions. First we study waves on open water, where the seabed can be considered relatively constant, sufficiently far from the shore. In the second part of the study we also consider a seabed which is oblique. Finally, we apply the most common traveling wave Ansatz and present almost trivial solutions as well., Comment: 23 pages, 8 figures

Published

2022

4. Analytic solutions of a two-fluid hydrodynamic model

Author

Barna, I. F. and László, Mátyás

Subjects

Physics - Fluid Dynamics

Abstract

We investigate a one dimensional flow described with the non-compressible coupled Euler and non-compressible Navier-Stokes equations in Cartesian coordinate systems. We couple the two fluids through the continuity equation where different void fractions can be considered. The well-known self-similar Ansatz was applied and analytic solutions were derived for both velocity and pressure field as well. The solutions can be expressed with the error functions., Comment: 11 pages, 4 figures

Published

2020

5. The influence of a strong infrared radiation field on the conductance properties of doped semiconductors

Author

Barna, I. F., Pocsai, M. A., and Varró, S.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

This work presents an analytic angular differential cross section formula for the electromagnetic radiation field assisted electron scattering by %% was on impurities in semiconductors. These impurities are approximated with various model potentials. The scattered electrons are described by the well-known Volkov wave function, which has been used describe strong laser field matter interaction for more than half a century, %% I would remove this time reference for clarity which exactly describes the interaction of the electron with the external oscillating field. These calculations show that the electron conductance in a semiconductor could be enhanced by an order of magnitude if an infrared electromagnetic field is present with $ 10^{11} < I < 10^{13}$ W/cm$^2$ intensity., Comment: 11 pages, 5 figures

Published

2018

6. Observables and initial conditions for rotating and expanding fireballs with spheroidal symmetry

Author

Csorgo, T., Nagy, M. I., and Barna, I. F.

Subjects

Nuclear Theory, High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Experiment

Abstract

Utilizing a recently found class of exact, analytic rotating solutions of non-relativistic fireball hydrodynamics, we calculate analytically the single-particle spectra, the elliptic flows and two-particle Bose-Einstein correlation functions for rotating and expanding fireballs with spheroidal symmetry. We demonstrate, that rotation generates final state momentum anisotropies even for a spatially symmetric, spherical initial geometry of the fireball. The mass dependence of the effective temperatures, as well as the HBT radius parameters and the elliptic flow are shown to be sensitive not only to radial flow effects but also to the magnitude of the initial angular momentum., Comment: 26 pages, with 18 .eps figures. Dedicated to L. P. Csernai on the occasion of his 65th birthday. Invited talk of T. Cs\"org\H{o} at the International Workshop on Collectivity in Relativistic Heavy Ion Collisions, Kolymbari, Crete,Greece, 14-20 September 2014, I.F. Barna at WPCF 2014, Gy\"ongy\"os, Hungary, 25-29 August 2014, and M. I. Nagy at WPCF 2015, Warsaw, Poland, 3-7 November 2015

Published

2015

7. Proton scattering on carbon nuclei in bichromatic laser field at moderate energies

Author

Barna, I. F. and Varró, S.

Subjects

Quantum Physics

Abstract

We present the general theory for proton nuclei scattering in a bichromatic laser field. As a physical example we consider proton collision on carbon twelve at 49 MeV/amu moderate energies in the field of a titan sapphire laser with its second harmonic., Comment: 6 pages 5 figures, submitted to NIMB. arXiv admin note: text overlap with arXiv:1406.6310

Published

2015

8. Analytic self-similar solutions of the Oberbeck-Boussinesq equations

Author

Barna, I. F. and Matyas, L.

Subjects

Physics - Fluid Dynamics

Abstract

In this article we will present pure two-dimensional analytic solutions for the coupled non-compressible Newtoniain Navier-Stokes --- with Boussinesq approximation --- and the heat conduction equation. The system was investigated from E.N. Lorenz half a century ago with Fourier series and pioneered the way to the paradigm of chaos. We present a novel analysis of the same system where the key idea is the two-dimensional generalization of the well-known self-similar Ansatz of Barenblatt which will be interpreted in a geometrical way. The results, the pressure, temperature and velocity fields are all analytic and can be expressed with the help of the error functions. The temperature field has a strongly damped oscillating behavior which is an interesting feature., Comment: 13 pages, 4 figures

Published

2015

9. Laser assisted proton collision on light nuclei at moderate energies

Author

Barna, I. F and Varro, S.

Subjects

Nuclear Theory

Abstract

We present analytic angular differential cross section model for laser assisted proton nucleon scattering on a Woods-Saxon optical potential where the nth-order photon absorption is taken into account simultaneously. As a physical example we calculate cross sections for proton - $^{12}$C collision at 49 MeV in the laboratory frame where the laser intensity is in the range of $ 10^{7} - 10^{21}$ W/cm$^2$ at optical frequencies. The upper intensity limit is slightly below the relativistic regime., Comment: 6 pages, 4 figures, will be submitted to Phys. Rev. C

Published

2014

10. Pre-Excitation Studies for Rubidium-Plasma Generation

Author

Aladi, M., Bakos, J. S., Barna, I. F., Czitrovszky, A., Djotyan, G. P., Dombi, P., Dzsotjan, D., Földes, I. B., Hamar, G., Ignácz, P. N., Kedves, M., Kerekes, A., Lévai, P., Márton, I., Nagy, A., Oszetzky, D., Pócsai, M. A., Rácz, P., Ráczkevi, B., Szigeti, J., Sörlei, Zs., Szipőcs, R., Varga, D., Varga-Umbrich, K., Varró, S., Vámos, L., and Vesztergombi, Gy.

Subjects

Physics - Plasma Physics

Abstract

The key element in the Proton-Driven-Plasma-Wake-Field-Accelerator (AWAKE) project is the generation of highly uniform plasma from Rubidium vapor. The standard way to achieve full ionization is to use high power laser which can assure the over-barrier-ionization (OBI) along the 10 meters long active region. The Wigner-team in Budapest is investigating an alternative way of uniform plasma generation. The proposed Resonance Enhanced Multi Photon Ionization (REMPI) scheme probably can be realized by much less laser power. In the following the resonant pre-excitations of the Rb atoms are investigated, theoretically and the status report about the preparatory work on the experiment are presented., Comment: 8 pages, 6 figures, submitted to Nucl. Inst. and Meth. in Phys. Res. A

Published

2013

11. Three dimensional compressible Navier-Stokes equation - self-similar and traveling wave solutions

Author

Barna, I. F.

Subjects

Physics - Fluid Dynamics

Abstract

We investigate the three dimensional compressible Navier-Stokes and the continuity equations in Cartesian coordinates for Newtonian fluids. The polytropic equation of sate is used as closing condition. The key idea is the three-dimensional generalization of the well-known self-similar Ansatz which was already used for non-compressible viscous flow in our former study (Commun. in Theor. Phys. 56, (2011) 745). In the second method the three dimensional traveling wave Ansatz was applied. The geometrical interpretations of the trial functions are also discussed., Comment: 15 pages 4 figures, submitted to Commun. in Theor. Phys. arXiv admin note: text overlap with arXiv:1102.5504

Published

2013

12. Self-similar shock wave solutions of the non-linear Maxwell equations

Author

Barna, I. F.

Subjects

Physics - Classical Physics, Physics - Optics

Abstract

In our study we consider nonlinear, power-law field-dependent electrical permitivity and magnetic permeability and investigate the time-dependent Maxwell equations with the self-similar Ansatz. This is a first-order hyperbolic PDE system which can conserve non-continuous initial conditions describing electromagnetic shock-waves. Besides shock-waves other interesting solutions (e.g. with localized compact support) can be found with delicate physical properties. Such phenomena may happen in complex materials induced by the planned powerful Extreme Light Infrastructure(ELI) laser pulses., Comment: 6 pages, 2 figures published in Laser Phys. 24 (2014) 086002

Published

2013

13. Self-similar solutions of the three dimensional Navier-Stokes equation

Author

Barna, I. F.

Subjects

Mathematical Physics

Abstract

In this article we will present pure three dimensional analytic solutions for the Navier-Stokes and the continuity equations in Cartesian coordinates. The key idea is the three-dimensional generalization of the well-known self-similar Ansatz of Barenblatt. A geometrical interpretation of the Ansatz is given also. The results are the Kummer functions or strongly related. Our final formula is compared with other results obtained from group theoretical approaches., Comment: 14 pages, 5 figures the manuscript is published in the Communication in Theoretical Physics 56, (2011) 745-750

Published

2011

14. Self-similar solutions of the G-equation - analytic description of the flame surface

Author

Barna, I. F.

Subjects

Physics - Fluid Dynamics, Mathematical Physics

Abstract

The main feature of the flame kinematics can be desribed with the G-equation. We investigate the solutions of the G-equation with the well-known self-similar Ansatz. The results are discussed and the method how to get self-similar solutions is briefly mentioned., Comment: just a short paper 5 pages, 5 figures

Published

2010

15. Heat conduction: a telegraph-type model with self-similar behavior of solutions II

Author

Barna, I. F. and Kersner, R.

Subjects

Mathematical Physics

Abstract

In our former study (J. Phys. A: Math. Theor. 43, (2010) 325210 or arXiv:1002.0999v1 [math-ph]) we introduced a modified Fourier-Cattaneo law and derived a non-autonomous telegraph-type heat conduction equation which has desirable self-similar solution. Now we present a detailed in-depth analysis of this model and discuss additional analytic solutions for different parameters. The solutions have a very rich and interesting mathematical structure due to various special functions., Comment: 12 pages, 10 figures 3 of them are colour, we plan to submit it to J. Phys. A: Math. Theor

Published

2010

16. Geometrical origin of chaoticity in the bouncing ball billiard

Author

Mátyás, L. and Barna, I. F.

Subjects

Nonlinear Sciences - Chaotic Dynamics

Abstract

We present a study of the chaotic behavior of the bouncing ball billiard. The work is realised on the purpose of finding at least certain causes of separation of the neighbouring trajectories. Having in view the geometrical construction of the system, we report a clear origin of chaoticity of the bouncing ball billiard. By this we claim that in case when the floor is made of arc of circles - in a certain interval of frequencies - a lower bound for the maximal Ljapunov can be evaluated by sem-ianalitical techniques., Comment: We plan to publish this manuscript in a regular journal soon.

Published

2010

17. Coherent control for the spherical symmetric box potential in short and intensive XUV laser fields

Author

Barna, I. F. and Dombi, P.

Subjects

Physics - Optics, Physics - Atomic Physics

Abstract

Coherent control calculations are presented for a spherically symmetric box potential for non-resonant two photon transition probabilities. With the help of a genetic algorithm (GA) the population of the excited states are maximized and minimized. The external driving field is a superposition of three intensive extreme ultraviolet (XUV) linearly polarized laser pulses with different frequencies in the femtosecond duration range. We solved the quantum mechanical problem within the dipole approximation. Our investigation clearly shows that the dynamics of the electron current has a strong correlation with the optimized and neutralizing pulse shape., Comment: 11 Pages 3 Figures

Published

2007

18. Angular distribution in two-photon double ionization of helium by intense attosecond soft X-ray pulses

Author

Barna, I. F., Wang, J., and Burgdoerfer, J.

Subjects

Physics - Atomic Physics

Abstract

We investigate two-photon double ionization of helium by intense ($10^{15} W/cm^2$) ultrashort ($\approx 300$ as) soft X-ray pulses (E = 91.6 eV). The time-dependent two-electron Schr\"odinger equation is solved using a coupled channel method. We show that for ultrashort pulses the angular distribution of ejected electrons depends on the pulse duration and provides novel insights into the role of electron correlations in the two-electron photoemission process. The angular distribution at energies near the ``independent electron'' peaks is close to dipolar while it acquires in the ``valley'' of correlated emission a significant quadrupolar component within a few hundred attoseconds., Comment: 17 pages, 6 figs

Published

2006

19. Spiral modes in the diffusion of a granular particle on a vibrating surface

Author

Klages, R., Barna, I. F., and Matyas, L.

Subjects

Nonlinear Sciences - Chaotic Dynamics, Condensed Matter - Statistical Mechanics

Abstract

We consider a particle that is subject to a constant force and scatters inelastically on a vibrating periodically corrugated floor. At small friction and small radius of the circular scatterers the dynamics is dominated by resonances forming spiral structures in phase space. These spiral modes lead to pronounced maxima and minima in the diffusion coefficient as a function of the vibration frequency, as is shown in computer simulations. Our theoretical predictions may be verified experimentally by studying transport of granular matter on vibratory conveyors., Comment: 10 pages, 3 eps-figures

Published

2004

20. 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

21. 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

22. 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

23. 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

24. Horizon 2020 EuPRAXIA design study

Author

Walker, P A, primary, 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, Boedewadt, J, 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, Dale, J, additional, Dattoli, G, additional, Delerue, N, additional, Delferriere, O, additional, Delinikolas, P, additional, Dias, J, additional, Dorda, U, additional, Ertel, K, additional, Ferran Pousa, A, additional, Ferrario, M, additional, Filippi, F, additional, Fils, J, additional, Fiorito, R, 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, Haefner, L C, additional, Heinemann, T, additional, Hidding, B, additional, Holzer, B J, additional, Hooker, S M, additional, Hosokai, T, additional, Irman, A, 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, 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, Maier, A R, additional, Malka, V, additional, Manahan, G G, additional, Mangles, S P D, additional, Marchetti, B, additional, Marocchino, A, additional, Martinez de la Ossa, A, additional, Martins, J L, additional, Massimo, F, additional, Mathieu, F, additional, Maynard, G, additional, Mehrling, T J, additional, Molodozhentsev, A Y, additional, Mosnier, A, additional, Mostacci, A, additional, Mueller, A S, additional, Najmudin, Z, additional, Nghiem, P A P, additional, Nguyen, F, additional, Niknejadi, P, additional, Osterhoff, J, additional, Papadopoulos, D, additional, Patrizi, B, additional, Pattathil, R, additional, Petrillo, V, additional, Pocsai, M A, additional, Poder, K, additional, Pompili, R, additional, Pribyl, L, additional, Pugacheva, D, additional, Romeo, S, additional, Rossi, A R, additional, Roussel, E, additional, Sahai, A A, 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, Thomas, A G R, additional, Thompson, N, additional, Toci, G, additional, Tomassini, P, additional, Vaccarezza, C, additional, Vannini, M, additional, Vieira, J M, additional, Villa, F, additional, Wahlström, C-G, additional, Walczak, R, additional, Weikum, M K, additional, Welsch, C P, additional, Wiemann, C, additional, Wolfenden, J, additional, Xia, G, additional, Yabashi, M, additional, Yu, L, additional, Zhu, J, additional, and Zigler, A, additional

Published

2017

25. Localization of nonlocal potentials by a Taylor expansion method

Author

Barna, I F, primary, Apagyi, B, additional, and Scheid, W, additional

Published

2000

26. EuPRAXIA conceptual design report

Author

Ke Wang, A. Y. Molodozhentsev, L. Boulton, Barbara Marchetti, Maria Weikum, Giuseppe Dattoli, Ulrich Schramm, P. Delinikolas, Victor Malka, T. L. Audet, Anna Giribono, Cristina Vaccarezza, Erik Bründermann, Marco Bellaveglia, Fernando Brandi, Vladimir Shpakov, F. Massimo, Dimitris N. Papadopoulos, D. Ullmann, Manuel Kirchen, Christophe Simon-Boisson, Axel Bernhard, Luca Piersanti, Marco Galimberti, Masaki Kando, Federico Nguyen, Suming Weng, Dario Giove, Thomas M. Spinka, Barbara Patrizi, A. Ghigo, R. Pattathil, M. A. Pocsai, Arie Irman, A. Chancé, Y. Zhao, Hao Zhang, Zulfikar Najmudin, Vladimir Litvinenko, Fabrice Marteau, G. Kirwan, U. Rotundo, Florian Grüner, L. O. Silva, F. Falcoz, Joana Luis Martins, D. Alesini, D. Khikhlukha, Francesco Iungo, Z. Mazzotta, Angelo Biagioni, A. F. Habib, Wim Leemans, S. Jaster-Merz, Alessandro Vannozzi, Leonida A. Gizzi, Fabien Briquez, S. Bartocci, Petra Koester, Tamina Akhter, Phu Anh Phi Nghiem, G. C. Bussolino, Jorge Vieira, Adolfo Esposito, D. Di Giovenale, Jens Osterhoff, Sergio Cantarella, Kristjan Poder, Bernhard Holzer, Nicolas Delerue, Brigitte Cros, Fabio Villa, Igor Andriyash, Alessandro Stecchi, Paul Crump, Sally Wiggins, Constantin Haefner, A. Del Dotto, Oscar Jakobsson, Alessandro Gallo, Emily Sistrunk, G. Di Pirro, Olena Kononenko, Yang Li, P. Campana, A. Martinez de la Ossa, Anke-Susanne Müller, Christoph Lechner, Brendan A. Reagan, Stuart Mangles, Andrew Sutherland, D. Kocon, E. N. Svystun, Simon M. Hooker, Ruggero Ricci, Javier Resta-López, C. D. Murphy, R. Walczak, Dino A. Jaroszynski, M. Yabashi, Chan Joshi, P. Santangelo, Maria Pia Anania, Konstantin Kruchinin, C. Simon, M. Hübner, C. A. Lindstrøm, Markus Büscher, Ulrich Dorda, J. Wolfenden, Alvin C. Erlandson, G. Korn, Sergey Mironov, Alessandro Rossi, Carl Schroeder, Zheng-Ming Sheng, Olle Lundh, T. Silva, Lucas Schaper, A. Ferran Pousa, M. Del Franco, Audrey Beluze, M. H. Bussmann, Alberto Marocchino, Gilles Maynard, Min Chen, Andrea Mostacci, Alexander Knetsch, Renato Fedele, M. Rossetti Conti, Amin Ghaith, G. Costa, R. Brinkmann, Gaetano Fiore, Claes-Göran Wahlström, J. Fils, Luca Serafini, Fabrizio Bisesto, J. Cowley, X. Li, Andreas Lehrach, Augusto Marcelli, Vittoria Petrillo, M. Ibison, Antonio Falone, A. Beck, Bruno Buonomo, D. Oumbarek Espinos, Daria Pugacheva, Stefan Karsch, A. Beaton, A. Nutter, Carsten Welsch, F. Mathieu, Christophe Szwaj, R. Fiorito, Paul Scherkl, C. Le Blanc, Arie Zigler, J. Scifo, Malte C. Kaluza, Craig W. Siders, Angelo Stella, Mathieu Valléau, Ujjwal Sinha, M. J. V. Streeter, A. Welsch, Efim A. Khazanov, Eléonore Roussel, Gianluca Sarri, Lucia Sabbatini, Silvia Morante, T. Heinemann, A. Aschikhin, G. Di Raddo, L. Pribyl, S. Romeo, Alberto Bacci, N. E. Andreev, Matteo Vannini, A. Bonatto, Francesco Filippi, Klaus Ertel, Riccardo Pompili, Ricardo Fonseca, Olivier Marcouillé, E. Di Pasquale, Jason Cole, M. Artioli, R. D'Arcy, Giovanni Franzini, Marco Diomede, Andreas Maier, I. Kostyukov, A. Specka, Serge Bielawski, Wei Lu, F. Cioeta, A. Mosnier, Grace Manahan, S. Vescovi, Alessandro Cianchi, P. Niknejadi, Francesco Stellato, Luigi Pellegrino, Oliver Karger, A. Helm, Bernhard Hidding, Paolo Tomassini, J. A. Clarke, A. Petralia, Davide Terzani, Enrica Chiadroni, Ralph Assmann, Alexandra Alexandrova, Paul Mason, R. Rossmanith, Jun Zhu, Thomas C. Galvin, R. Torres, Agustin Lifschitz, M. E. Couprie, Massimo Ferrario, F. Brottier, S. De Nicola, Kevin Cassou, Tomonao Hosokai, Andy J. Bayramian, J. L. Paillard, Gabriele Tauscher, P. A. Walker, Geetanjali Sharma, P. Lee, Guido Toci, Farzad Jafarinia, Simona Incremona, Imre Ferenc Barna, Charles Kitegi, D. R. Symes, M. Croia, Vladyslav Libov, J. M. Dias, Guoxing Xia, L. Labate, 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., Deutsches Elektronen-Synchrotron [Hamburg] (DESY), Istituto Nazionale di Fisica Nucleare, Sezione di Napoli (INFN, Sezione di Napoli), Istituto Nazionale di Fisica Nucleare (INFN), Laboratori Nazionali di Frascati (LNF), Laboratoire d'optique appliquée (LOA), École Nationale Supérieure de Techniques Avancées (ENSTA Paris)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de l'Accélérateur Linéaire (LAL), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Engineering & Physical Science Research Council (EPSRC), Science and Technology Facilities Council (STFC), and EuPRAXIA

Subjects

Technology, electron: energy, AMPLIFIED SPONTANEOUS-EMISSION, wake field [plasma], General Physics and Astronomy, costs, plasma: wake field, free electron laser, GeV, 01 natural sciences, 7. Clean energy, wake field [acceleration], 010305 fluids & plasmas, law.invention, Laser technology, acceleration: wake field, Conceptual design, FREE-ELECTRON LASER, AT-SPARC-LAB, law, IN-CELL CODE, [PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], PLASMA-WAKEFIELD ACCELERATION, General Materials Science, LATERAL SHEARING INTERFEROMETRY, media_common, Applied Physics, Settore FIS/01, 02 Physical Sciences, T1, light source, Physics, Settore FIS/07, accelerator: plasma, Schedule (project management), Physical Sciences, Systems engineering, positron, Plasma acceleration, X rays, compact accelerators, performance, WAKE-FIELD ACCELERATION, X-RAY SOURCE, Project implementation, Fluids & Plasmas, Physics, Multidisciplinary, accelerator [electron], Physics and Astronomy(all), HIGH PEAK POWER, electron: accelerator, horizon, medicine: imaging, X-ray, accelerators, Materials Science(all), 0103 physical sciences, media_common.cataloged_instance, ddc:530, European union, Physical and Theoretical Chemistry, 010306 general physics, energy [electron], 01 Mathematical Sciences, plasma: acceleration, acceleration [plasma], Electron energy, Science & Technology, imaging [medicine], plasma [accelerator], Particle accelerator, plasmas, Accelerators and Storage Rings, laser, Automatic Keywords, gamma ray, linear collider, ddc:600, CHIRPED-PULSE AMPLIFICATION

Abstract

European physical journal special topics 229(24), 3675 - 4284 (2020). doi:10.1140/epjst/e2020-000127-8, This report presents the conceptual design of a new European research infrastructure EuPRAXIA. The concept has been established over the last four years in a unique collaboration of 41 laboratories within a Horizon 2020 design study funded by the European Union. EuPRAXIA is the first European project that develops a dedicated particle accelerator research infrastructure based on novel plasma acceleration concepts and laser technology. It focuses on the development of electron accelerators and underlying technologies, their user communities, and the exploitation of existing accelerator infrastructures in Europe. EuPRAXIA has involved, amongst others, the international laser community and industry to build links and bridges with accelerator science — through realising synergies, identifying disruptive ideas, innovating, and fostering knowledge exchange. The Eu-PRAXIA project aims at the construction of an innovative electron accelerator using laser- and electron-beam-driven plasma wakefield acceleration that offers a significant reduction in size and possible savings in cost over current state-of-the-art radiofrequency-based accelerators. The foreseen electron energy range of one to five gigaelectronvolts (GeV) and its performance goals will enable versatile applications in various domains, e.g. as a compact free-electron laser (FEL), compact sources for medical imaging and positron generation, table-top test beams for particle detectors, as well as deeply penetrating X-ray and gamma-ray sources for material testing. EuPRAXIA is designed to be the required stepping stone to possible future plasma-based facilities, such as linear colliders at the high-energy physics (HEP) energy frontier. Consistent with a high-confidence approach, the project includes measures to retire risk by establishing scaled technology demonstrators. This report includes preliminary models for project implementation, cost and schedule that would allow operation of the full Eu-PRAXIA facility within 8—10 years., Published by Springer, Heidelberg

Published

2020

27. EuPRAXIA - A Compact, Cost-Efficient Particle and Radiation Source

Author

C. D. Murphy, Markus Büscher, Gabriele Tauscher, Malte C. Kaluza, Dino A. Jaroszynski, O. Delferrière, P. A. Walker, C. Simon, M. Hübner, Petra Koester, Bernhard Hidding, Paolo Tomassini, Arnaud Beck, F. Filippi, J. A. Clarke, Arie Irman, Daria Pugacheva, Alessandro Cianchi, Marco Galimberti, P. Gastinel, S. De Nicola, G. C. Bussolino, Paul Scherkl, M. J. V. Streeter, Enrica Chiadroni, Feiyu Li, Joana Luis Martins, Efim A. Khazanov, Masaki Kando, Barbara Marchetti, S. Romeo, Alberto Bacci, R. Rossmanith, Jason Cole, O. Kononenko, J. Scifo, Grace Manahan, P. D. Alesini, Maria Weikum, A. Ferran Pousa, Tomonao Hosokai, Gilles Maynard, A. F. Habib, J. C. Chanteloup, Jorge Vieira, Stuart Mangles, Cristina Vaccarezza, Alexandra Alexandrova, Anna Giribono, Paul Mason, Jun Zhu, N.R. Thompson, A. Lifschitz, Ujjwal Sinha, Lucas Schaper, La Gizzi, Stefan Karsch, Axel Bernhard, L. Pribyl, Ulrich Schramm, Florian Grüner, Christoph Lechner, Federico Nguyen, Andreas Maier, Timon Mehrling, F. Massimo, A. Beluze, Andreas Lehrach, A. Aschikhin, M. Yabashi, David Garzella, Erik Bründermann, T. Silva, Simon M. Hooker, Brigitte Cros, A. Chancé, Vittoria Petrillo, Aakash A. Sahai, Gaetano Fiore, Fabrizio Bisesto, Alexander Knetsch, Renato Fedele, X. Li, A. Martinez de la Ossa, Maria Pia Anania, Konstantin Kruchinin, Kristjan Poder, I. Kostyukov, Wei Lu, G. Korn, Vladimir Litvinenko, Phu Anh Phi Nghiem, Bernhard Holzer, P. Niknejadi, Nicolas Delerue, Massimo Ferrario, Gianluca Sarri, Igor Andriyash, A. Marocchino, Z. Mazzotta, N. E. Andreev, Wim Leemans, S. Jaster-Merz, Carl Schroeder, Andrea Mostacci, C. Joshi, Fabio Villa, Ralph Assmann, R. Torres, Serge Bielawski, P. P. Rajeev, Farzad Jafarinia, Dario Giove, Michael Bussmann, J. Fils, Ulrich Dorda, M. Croia, J. Schwindling, O. Bringer, Guoxing Xia, T. Akhter, D. Terzani, J. Wolfenden, D. Kocon, Carsten Welsch, M. E. Couprie, F. Mathieu, E. N. Svystun, R. Brinkmann, Claes-Göran Wahlström, Ricardo Fonseca, Oliver Karger, C. Szwaj, T. L. Audet, D. Ullmann, Anke-Susanne Müller, Min Chen, A. Gallo, A. Specka, Barbara Patrizi, Jens Osterhoff, P. Delinikolas, Luca Serafini, T. Heinemann, A. Beaton, Arie Zigler, A. Y. Molodozhentsev, Eléonore Roussel, Matteo Vannini, Riccardo Pompili, Giuseppe Dattoli, Victor Malka, M. A. Pocsai, M. Rossetti Conti, D. Khikhlukha, Fernando Brandi, Lujie Yu, Zulfikar Najmudin, Luis O. Silva, Paul Crump, Zheng-Ming Sheng, Guido Toci, Imre Ferenc Barna, D. R. Symes, Vladyslav Libov, L. Labate, Roman Walczak, Andrea Rossi, D. Papadopoulos, João Dias, K. Wang, Olle Lundh, Floyd McDaniel, Gary Glass, Barney Doyle, Arlyn Antolak and Yongqiang Wang, Weikum, M. K., Akhter, T., 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., 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., Crump, P., Dattoli, G., Delerue, N., Delferriere, O., Delinikolas, P., De Nicola, S., Dias, J., Dorda, U., Fedele, R., Pousa, A. Ferran, Ferrario, M., Filippi, F., Fils, J., Fiore, G., Fonseca, R. A., Galimberti, M., Gallo, A., Garzella, D., Gastinel, P., Giove, D., Giribono, A., Gizzi, L. A., Grüner, F. J., Habib, A. F., Heinemann, T., Hidding, B., Holzer, B. J., Hooker, S. M., Hosokai, T., Hübner, M., Irman, A., Jafarinia, F., 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., Kruchinin, K., Labate, L., Lechner, C., Leemans, W. P., Lehrach, A., Li, F. Y., Li, X., Libov, V., Lifschitz, A., Litvinenko, V., Lu, W., Lundh, O., Maier, A. R., Malka, V., Manahan, G. G., Mangles, S. P. D., Marchetti, B., Marocchino, A., de la Ossa, A. Martinez, Martins, J. L., Mason, P., Massimo, F., Mathieu, F., Maynard, G., Mazzotta, Z., Mehrling, T. J., Molodozhentsev, A. Y., Mostacci, A., Müller, A. S., Murphy, C. D., Najmudin, Z., Nghiem, P. A. P., Nguyen, F., Niknejadi, P., Osterhoff, J., Papadopoulos, D., Patrizi, B., Petrillo, V., Pocsai, M. A., Poder, K., Pompili, R., Pribyl, L., Pugacheva, D., Romeo, S., Rajeev, P. P., Conti, M. Rossetti, Rossi, A. R., Rossmanith, R., Roussel, E., Sahai, A. A., Sarri, G., Schaper, L., 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., Terzani, D., Thompson, N., Toci, G., Tomassini, P., Torres, R., Ullmann, D., Vaccarezza, C., Vannini, M., Vieira, J. M., Villa, F., Wahlström, C. -G., Walczak, R., Walker, P. A., Wang, K., Welsch, C. P., Wolfenden, J., Xia, G., Yabashi, M., Yu, L., Zhu, J., Zigler, A., Synchrotron SOLEIL (SSOLEIL), Centre National de la Recherche Scientifique (CNRS), Laboratoire de physique des gaz et des plasmas (LPGP), Université Paris-Sud - Paris 11 (UP11)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Leprince-Ringuet (LLR), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), Laboratoire pour l'utilisation des lasers intenses (LULI), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-École polytechnique (X)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique des Lasers, Atomes et Molécules - UMR 8523 (PhLAM), Université de Lille-Centre National de la Recherche Scientifique (CNRS), Département des Accélérateurs, de Cryogénie et de Magnétisme (ex SACM) (DACM), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Brundermann, E., Buscher, M., Pousa, A. F., Gruner, F. J., Hubner, M., De La Ossa, A. M., Muller, A. S., Conti, M. R., and Wahlstrom, C. -G.

Subjects

Cost efficiency, [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], Radiation, Plasma acceleration, 7. Clean energy, 01 natural sciences, Plasmas, accelerators, 010305 fluids & plasmas, Particle acceleration, Conceptual design, 13. Climate action, 0103 physical sciences, Systems engineering, Particle, ddc:530, Laser beam quality, 010306 general physics, Plasmas (physics) | Lasers | Laser wakefield, Electrical efficiency, QC

Abstract

25th International Conference on the Application of Accelerators in Research and Industry, CAARI 2018, Texas, USA, 12 Aug 2018 - 17 Aug 2018; AIP conference proceedings 2160(1), 040012-1 - 040012-9 (2019). doi:https://doi.org/10.1063/1.5127692, Plasma accelerators present one of the most suitable candidates for the development of more compact particle acceleration technologies, yet they still lag behind radiofrequency (RF)-based devices when it comes to beam quality, control, stability and power efficiency. The Horizon 2020-funded project EuPRAXIA (“European Plasma Research Accelerator with eXcellence In Applications”) aims to overcome the first three of these hurdles by developing a conceptual design for a first international user facility based on plasma acceleration. In this paper we report on the main features, simulation studies and potential applications of this future research infrastructure., Published by AIP Publishing, Melville, NY

Published

2019