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Journals >Matter and Radiation at Extremes >Volume 9 >Issue 3 >Page 033001 > Article

Matter and Radiation at Extremes
Vol. 9, Issue 3, 033001 (2024)

Physics of porous materials under extreme laser-generated conditions

V. T. Tikhonchuk^1,2,a) and S. Weber¹

Author Affiliations

¹Extreme Light Infrastructure ERIC, ELI Beamlines Facility, 25241 Dolní Břežany, Czech Republic

²CELIA, University of Bordeaux, 33405 Talence, France

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DOI: 10.1063/5.0169446 Cite this Article

V. T. Tikhonchuk, S. Weber. Physics of porous materials under extreme laser-generated conditions[J]. Matter and Radiation at Extremes, 2024, 9(3): 033001 Copy Citation Text

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References

[1] O. S.Jones, G. E.Kemp, S. H.Langeret?al.. Experimental and calculational investigation of laser-heated additive manufactured foams. Phys. Plasmas, 28, 022709(2021).

[2] T.Gong, N.Jourdain, V.Tikhonchuket?al.. Studies of laser–plasma interaction physics with low-density targets for direct-drive inertial confinement fusion on the Shenguang III prototype. Matter Radiat. Extremes, 6, 025902(2021).

[3] M. M.Günther, O. N.Rosmej, P.Tavanaet?al.. Forward-looking insights in laser-generated ultra-intense γ-ray and neutron sources for nuclear application and science. Nat. Commun., 13, 170(2022).

[4] C. S. A.Musgrave, K.Nagai, W.Nazarov. A review of low density porous materials used in laser plasma experiments. Phys. Plasmas, 25, 030501(2018).

[5] W.Ma, L.Song, R.Yang, T.Zhanget?al.. Directly synthesized strong, highly conducting, transparent single-walled carbon nanotube films. Nano Lett., 7, 2307(2007).

[6] J.Fischer, M.Wegener. Three-dimensional optical laser lithography beyond the diffraction limit. Laser Photonics Rev., 7, 22(2013).

[7] U.Chaulagain, M.Havlìk, N.Jourdainet?al.. The L4n laser beamline of the P3-installation: Towards high-repetition rate high-energy density physics at ELI-Beamlines. Matter Radiat. Extremes, 6, 015401(2021).

[8] J.Fuchs, S.Pascarelli, I.Prencipeet?al.. Targets for high repetition rate laser facilities: Needs, challenges and perspectives. High Power Laser Sci. Eng., 5, e17(2017).

[9] O.Maliuk, V.Tikhonchuk, T.Wisteet?al.. Additive manufactured foam targets for experiments on high-power laser–matter interaction. J. Appl. Phys., 133, 043101(2023).

[10] A.Gintrand, L.Hudec, J.Limpouchet?al.. Hybrid ablation–expansion model for laser interaction with low-density foams. Phys. Plasmas, 30, 042704(2023).

[11] R.Aboushelbaya, R. W.Paddock, M. W.von der Leyenet?al.. Measuring the principal Hugoniot of inertial-confinement-fusion-relevant TMPTA plastic foams. Phys. Rev. E, 107, 025206(2023).

[12] D. W.Li, Y.Liu, W.Xionget?al.. Precise assembly and joining of silver nanowires in three dimensions for highly conductive composite structures. Int. J. Extreme Manuf., 1, 025001(2019).

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V. T. Tikhonchuk, S. Weber. Physics of porous materials under extreme laser-generated conditions[J]. Matter and Radiation at Extremes, 2024, 9(3): 033001

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