Scaling of thin wire cylindrical compression with material, diameter, and laser energy after 100 fs Joule surface heating

Yang, L.; Brambrink, E.; Lütgert, J.; Zeil, K.; Laso Garcia, Alejandro; Huang, Lingen; Goede, S.; Pelka, A.; Kluge, T.; Cowan, T. E.; Vescovi, M.; Rahul, S. V.; Fefeu, N.; Santos, J. J.; Šmíd, M.; Dornheim, T.; Toncian, T.; Nakatsutsumi, M.; Hagemann, J.; Schramm, U.; Qu, C. B.; Zastrau, U.; Redmer, R.; Rehwald, M.; Höppner, H.; Preston, T. R.; Humphries, O.; Baehtz, C.; Herbert, M.-L.; Schwinkendorf, J.-P.; Gawne, T.; Kraus, D.; Randolph, L.; Bouffetier, V.; Naedler, J.-P.

doi:10.1063/5.0291405

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@ARTICLE{Yang:644600,
      author       = {Yang, L. and Herbert, M.-L. and Baehtz, C. and Bouffetier,
                      V. and Brambrink, E. and Dornheim, T. and Fefeu, N. and
                      Gawne, T. and Goede, S. and Hagemann, J. and Höppner, H.
                      and Huang, Lingen and Humphries, O. and Kluge, T. and Kraus,
                      D. and Lütgert, J. and Naedler, J.-P. and Nakatsutsumi, M.
                      and Pelka, A. and Preston, T. R. and Qu, C. B. and Rahul, S.
                      V. and Randolph, L. and Redmer, R. and Rehwald, M. and
                      Santos, J. J. and Šmíd, M. and Schramm, U. and
                      Schwinkendorf, J.-P. and Vescovi, M. and Zastrau, U. and
                      Zeil, K. and Laso Garcia, Alejandro and Toncian, T. and
                      Cowan, T. E.},
      title        = {{S}caling of thin wire cylindrical compression with
                      material, diameter, and laser energy after 100 fs {J}oule
                      surface heating},
      journal      = {Matter and radiation at extremes},
      volume       = {11},
      number       = {1},
      issn         = {2468-080X},
      address      = {Melville, NY},
      publisher    = {AIP Publishing},
      reportid     = {PUBDB-2026-00434},
      pages        = {017604},
      year         = {2026},
      abstract     = {We present the first systematic experimental validation of
                      return-current-driven cylindrical implosion scaling in
                      micrometer-sized Cu and Al wires irradiated by J-class
                      femtosecond laser pulses. Employing XFEL-based imaging with
                      sub-micrometer spatial and femtosecond temporal resolution,
                      supported by hydrodynamic and particle-in-cell simulations,
                      we reveal how return current density depends precisely on
                      wire diameter, material properties, and incident laser
                      energy. We identify deviations from simple theoretical
                      predictions due to geometrically influenced electron escape
                      dynamics. These results refine and confirm the scaling laws
                      essential for predictive modeling in high-energy-density
                      physics and inertial fusion research.},
      cin          = {FS-PETRA},
      ddc          = {530},
      cid          = {I:(DE-H253)FS-PETRA-20140814},
      pnm          = {631 - Matter – Dynamics, Mechanisms and Control
                      (POF4-631)},
      pid          = {G:(DE-HGF)POF4-631},
      experiment   = {EXP:(DE-H253)XFEL-SASE2-20150101},
      typ          = {PUB:(DE-HGF)16},
      doi          = {10.1063/5.0291405},
      url          = {https://bib-pubdb1.desy.de/record/644600},
}

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