Search Results - "Huebl, A."

Demonstration of a beam loaded nanocoulomb-class laser wakefield accelerator by Couperus, J. P., Pausch, R., Köhler, A., Zarini, O., Krämer, J. M., Garten, M., Huebl, A., Gebhardt, R., Helbig, U., Bock, S., Zeil, K., Debus, A., Bussmann, M., Schramm, U., Irman, A.

“…Laser-plasma wakefield accelerators have seen tremendous progress, now capable of producing quasi-monoenergetic electron beams in the GeV energy range with…”
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Isolated proton bunch acceleration by a petawatt laser pulse by Hilz, P., Ostermayr, T. M., Huebl, A., Bagnoud, V., Borm, B., Bussmann, M., Gallei, M., Gebhard, J., Haffa, D., Hartmann, J., Kluge, T., Lindner, F. H., Neumayr, P., Schaefer, C. G., Schramm, U., Thirolf, P. G., Rösch, T .F., Wagner, F., Zielbauer, B., Schreiber, J.

“…Often, the interpretation of experiments concerning the manipulation of the energy distribution of laser-accelerated ion bunches is complicated by the…”
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Laser-driven x-ray and proton micro-source and application to simultaneous single-shot bi-modal radiographic imaging by Ostermayr, T. M., Kreuzer, C., Englbrecht, F. S., Gebhard, J., Hartmann, J., Huebl, A., Haffa, D., Hilz, P., Parodi, K., Wenz, J., Donovan, M. E., Dyer, G., Gaul, E., Gordon, J., Martinez, M., Mccary, E., Spinks, M., Tiwari, G., Hegelich, B. M., Schreiber, J.

“…Radiographic imaging with x-rays and protons is an omnipresent tool in basic research and applications in industry, material science and medical diagnostics…”
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Bayesian optimization of laser-plasma accelerators assisted by reduced physical models by Ferran Pousa, A., Jalas, S., Kirchen, M., Martinez de la Ossa, A., Thévenet, M., Hudson, S., Larson, J., Huebl, A., Vay, J.-L., Lehe, R.

“…Particle-in-cell simulations are among the most essential tools for the modeling and optimization of laser-plasma accelerators, since they reproduce the…”
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How to test and verify radiation diagnostics simulations within particle-in-cell frameworks by Pausch, R., Debus, A., Widera, R., Steiniger, K., Huebl, A., Burau, H., Bussmann, M., Schramm, U.

“…The particle-in-cell code PIConGPU provides the feature of calculating angular resolved radiation spectra in the far field based on Liénard–Wiechert potentials…”
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HiPACE++: A portable, 3D quasi-static particle-in-cell code by Diederichs, S., Benedetti, C., Huebl, A., Lehe, R., Myers, A., Sinn, A., Vay, J.-L., Zhang, W., Thévenet, M.

“…•Portable, quasi-static particle-in-cell code method for plasma acceleration.•Orders-of-magnitude speedup over CPU implementation exploiting fast GPU…”
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Quantitatively consistent computation of coherent and incoherent radiation in particle-in-cell codes—A general form factor formalism for macro-particles by Pausch, R., Debus, A., Huebl, A., Schramm, U., Steiniger, K., Widera, R., Bussmann, M.

“…Quantitative predictions from synthetic radiation diagnostics often have to consider all accelerated particles. For particle-in-cell (PIC) codes, this not only…”
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Porting WarpX to GPU-accelerated platforms by Myers, A., Almgren, A., Amorim, L.D., Bell, J., Fedeli, L., Ge, L., Gott, K., Grote, D.P., Hogan, M., Huebl, A., Jambunathan, R., Lehe, R., Ng, C., Rowan, M., Shapoval, O., Thévenet, M., Vay, J.-L., Vincenti, H., Yang, E., Zaïm, N., Zhang, W., Zhao, Y., Zoni, E.

“…WarpX is a general purpose electromagnetic particle-in-cell code that was originally designed to run on many-core CPU architectures. We describe the strategy,…”
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Porting WarpX to GPU-accelerated platforms by Myers, A., Almgren, A., Amorim, L. D., Bell, J., Fedeli, L., Ge, L., Gott, K., Grote, D. P., Hogan, M., Huebl, A., Jambunathan, R., Lehe, R., Ng, C., Rowan, M., Shapoval, O., Thévenet, M., Vay, J. -L., Vincenti, H., Yang, E., Zaïm, N., Zhang, W., Zhao, Y., Zoni, E.

“…WarpX is a general purpose electromagnetic particle-in-cell code that was originally designed to run on many-core CPU architectures. We describe the strategy,…”
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Radiative signatures of the relativistic Kelvin-Helmholtz instability by Bussmann, M., Burau, H., Cowan, T. E., Debus, A., Huebl, A., Juckeland, G., Kluge, T., Nagel, W. E., Pausch, R., Schmitt, F., Schramm, U., Schuchart, J., Widera, R.

“…We present a particle-in-cell simulation of the relativistic Kelvin-Helmholtz Instability (KHI) that for the first time delivers angularly resolved radiation…”
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Efficient proton acceleration from laser-driven cryogenic hydrogen target of various shapes by Sharma, A, Huebl, A, Andreev, A

“…We theoretically investigate high energy, collimated proton beam with three dimensional particle in cell simulations of ultrashort petawatt laser interaction…”
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Bayesian optimization of laser-plasma accelerators assisted by reduced physical models by Pousa, A. Ferran, Jalas, S, Kirchen, M, de la Ossa, A. Martinez, Thévenet, M, Hudson, S, Larson, J, Huebl, A, Vay, J. -L, Lehe, R

“…Particle-in-cell simulations are among the most essential tools for the modeling and optimization of laser-plasma accelerators, since they reproduce the…”
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Report on the Advanced Linear Collider Study Group (ALEGRO) Workshop 2024 by Vieira, J, Cros, B, Muggli, P, Andriyash, I. A, Apsimon, O, Backhouse, M, Benedetti, C, Bulanov, S. S, Caldwell, A, Chen, Min, Cilento, V, Corde, S, D'Arcy, R, Diederichs, S, Ericson, E, Esarey, E, Farmer, J, Fedeli, L, Formenti, A, Foster, B, Garten, M, Geddes, C. G. R, Grismayer, T, Hogan, M. J, Hooker, S, Huebl, A, Jalas, S, Kirchen, M, Lehe, R, Leemans, W, Li, Boyuan, Lindström, C. A, Losito, R, Mitchell, C. E, Mori, W. B, Piot, P, Terzani, D, Thévenet, M, Turner, M, Vay, J. -L, Völker, D, Zhang, Jie, Zhang, W

“…The workshop focused on the application of ANAs to particle physics keeping in mind the ultimate goal of a collider at the energy frontier (10\,TeV,…”
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Modeling of Advanced Accelerator Concepts by Vay, J. -L, Huebl, A, Lehe, R, Cook, N. M, England, R. J, Niedermayer, U, Piot, P, Tsung, F, Winklehner, D

“…Computer modeling is essential to research on Advanced Accelerator Concepts (AAC), as well as to their design and operation. This paper summarizes the current…”
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Snowmass21 Accelerator Modeling Community White Paper by Biedron, S, Brouwer, L, Bruhwiler, D. L, Cook, N. M, Edelen, A. L, Filippetto, D, Huang, C. -K, Huebl, A, Katsouleas, T, Kuklev, N, Lehe, R, Lund, S, Messe, C, Mori, W, Ng, C. -K, Perez, D, Piot, P, Qiang, J, Roussel, R, Sagan, D, Sahai, A, Scheinker, A, Thévenet, M, Tsung, F, Vay, J. -L, Winklehner, D, Zhang, H

“…After a summary of relevant comments and recommendations from various reports over the last ten years, this paper examines the modeling needs in accelerator…”
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Porting WarpX to GPU-accelerated platforms by Myers, A, Almgren, A, Amorim, L. D, Bell, J, Fedeli, L, Ge, L, Gott, K, Grote, D. P, Hogan, M, Huebl, A, Jambunathan, R, Lehe, R, Ng, C, Rowan, M, Shapoval, O, Thévenet, M, Vay, J. -L, Vincenti, H, Yang, E, Zaïm, N, Zhang, W, Zhao, Y, Zoni, E

“…Parallel Computing, Volume 108, 2021, 102833 WarpX is a general purpose electromagnetic particle-in-cell code that was originally designed to run on many-core…”
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Linear colliders based on laser-plasma accelerators by Benedetti, C, Bulanov, S. S, Esarey, E, Geddes, C. G. R, Gonsalves, A. J, Huebl, A, Lehe, R, Nakamura, K, Schroeder, C. B, Terzani, D, van Tilborg, J, Turner, M, Vay, J. -L, Zhou, T, Albert, F, Bromage, J, Campbell, E. M, Froula, D. H, Palastro, J. P, Zuegel, J, Bruhwiler, D, Cook, N. M, Cros, B, Downer, M. C, Fuchs, M, Shadwick, B. A, Gessner, S. J, Hogan, M. J, Hooker, S. M, Jing, C, Krushelnick, K, Thomas, A. G. R, Leemans, W. P, Maier, A. R, Osterhoff, J, Poder, K, Thevenet, M, Joshi, C, Mori, W. B, Milchberg, H. M, Palmer, M, Power, J. G, Vafaei-Najafabadi, N

“…White paper to the Proceedings of the U.S. Particle Physics Community Planning Exercise (Snowmass 2021): Linear colliders based on laser-plasma accelerators…”
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Simulations of Future Particle Accelerators: Issues and Mitigations by Sagan, D, Berz, M, Cook, N. M, Hao, Y, Hoffstaetter, G, Huebl, A, Huang, C. -K, Langston, M. H, Mayes, C. E, Mitchell, C. E, Ng, C. -K, Qiang, J, Ryne, R. D, Scheinker, A, Stern, E, Vay, J. -L, Winklehner, D, Zhang, H

“…The ever increasing demands placed upon machine performance have resulted in the need for more comprehensive particle accelerator modeling. Computer…”
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Radiative signature of the relativistic Kelvin-Helmholtz Instability by Bussmann, M., Schmitt, F., Schramm, U., Schuchart, J., Widera, R., Burau, H., Cowan, T.E., Debus, A., Huebl, A., Juckeland, G., Kluge, T., Nagel, W.E., Pausch, R.

“…We present a particle-in-cell simulation of the relativistic Kelvin-Helmholtz Instability (KHI) that for the first time delivers angularly resolved radiation…”
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Eine Tageslichtbrille (Lumina-Brille) by Hübl, A., Weiß, Hermann, Fresenius, L.

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