1. J. Badziak, S. Borodziuk, T. Pisarczyk, T. Chodukowski, E. Krousky, K. Masek,
    J. Skala, J. Ullschmied, and Yong-Joo Rhee,
    Highly efficient acceleration and collimation of high-density plasma using laser-induced cavity pressure”,
    Applied Physics Letters, 96 (2010) 251502.

  1. J. Badziak, S. Jabłoński,
    „Ultraintense ion beams driven by a short-wavelength short-pulse laser”,
    Physics of Plasma, 17 (2010). 073106.

  1. J. Badziak, S. Jabłoński, M. Kubkowska, P. Parys, M. Rosiński, J. Wołowski,
    A. Szydłowski, P. Antici, J. Fuchs and A. Mancic,

    Laser-driven generation of ultraintense proton beams”,
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology, 165 (2010) 760–766.

  1. J. Badziak, S. Jabłoński, P. Parys, A. Szydłowski, J. Fuchs, A. Mancic,
    „Production of high-intensity proton fluxes by a 2 Nd: glass Laser beam”,
    Laser and Particle Beams, 28 (2010) 575-583.

  1. T. Desai, M. Bussoli, R. Dezulian, A. Villa, E. Krousky, A.A. Aliverdiev, M. Kubkowska, and J. Wołowski,
    Analogy of meteorite impacts in laboratory conditions”,
    Phys. Scr., T142 (2010) 014027.

  1. L. Giuffrida, L. Torrisi, L. Calcagnile, M. Rosinski,
    "Ge post-acceleration from laser-generated plasma",
    Nuclear Instruments and Methods in Physics Research A,
    623 (2010) 716-719.

  1. L. Giuffrida, L. Torrisi, S. Gammino, J.Wolowski and J. Ullschmied,
    “Surface ion implantation induced by laser-generated plasmas”,
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology, 165 (2010) 534-542.

  1. T. Grycuk , M. Kubkowska,
    „Experimental studies of the 200 nm diffuse band in zinc vapours and its interpretation”,
    Journal of Physics B,
    43 (2010) 125204.

  1. A. Kasperczuk, T. Pisarczyk, J. Badziak, S. Borodziuk, T. Chodukowski, S. Yu. Gus’kov, N. N. Demchenko, J. Ullschmied, E. Krousky, K. Masek, M. Pfeifer, K. Rohlena, J. Skala, and P. Pisarczyk,
    Influence of low atomic number plasma component on the formation of laser-produced plasma jets”,
    Physics of Plasmas, 17 (2010) 114505.

  1. A. Kasperczuk. T. Pisarczyk, J. Badziak, S. Borudziuk, T. Chodukowski, P. Parys, J. Ullschmied, E. Krousky, K. Masek, M. Pfeifer, K. Rohlena, J. Skala, P. Pisarczyk,
    “Interaction of two plasma jets produced successively from Cu target”,
    Laser and Particle Beams,
    28 (2010) 497-504.

  1. J. Krasa, A. Velyhan, E. Krousky, L.Laska, K. Rohlena, K. Jungwirth, J. Ullschmied, A. Lorusso, L. Velardi, V. Nassisi, A. Czarnecka, L. Ryć, P. Parys, J. Wołowski,
    “Emission characteristics and stability of laser ion sources”,
    Vacuum, 85 (2010) (617-621.

  1. J. Krása, L. Láska, K. Rohlena, A. Velyhan, A. Czarnecka, P. Parys, L. Ryć and J.Wolowski,
    „Limits of applicability of a time-of-flight ion-mass analyzer in uncovering partial currents of ions emitted by pulsed laser ion sources”
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma
    Technology,
    165 (2010) 441–450.

  1. P. Kubes, M. Paduch, T. Pisarczyk, M. Scholtz, D. Klir, J. Kravarik, K.Rezac, T. Chodukowski, I. Ivanova-Stanik, L. Karpiñski, E. Zieliñska, K. Tomaszewski, and M.J.Sadowski,
    Transformation of the Pinched Column at a Period of the Neutron Production”,
    IEEE Transactions on Plasma Science, vol.38, no.4, April (2010).

  1. L. Láska, J. Badziak, K. Jungwirth, M. Kálal, J. Krása, E. Krouský, P. Kubeš, D. Margarone, P. Parys, M. Pfeifer, K. Rohlena, M. Rosiński, L. Ryć, J. Skála, L. Torrisi, J. Ullschmied, A. Velyhan and J.Wołowski,
    „Analysis of processes participating during intense iodine-laser-beam interactions with laser-produced plasmas”,
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology, 165 (2010) 463–471.

  1. P.Nicolai, C. Stenz, V. Tikhonchuk, A. Kasperczuk, T. Pisarczyk, L. Juha, E. Krousky, K. Masek, M. Pfeifer, K. Rohlena, J. Skala, V. Kmetik, J. Ullschmied, M. Kalal, D.Klir, J. Kravarik, P. Kubes, K.Rezac, P. Pisarczyk, and E. Tabakhoff.
    Experimental evidence of multimaterial jet formation with lasers”,
    Physics of Plasmas, 17 (2010) 112903.

  1. M. Rosinski, P. Parys, J.Wołowski, P. Gąsior and M. Pisarek,
    „Electrostatic acceleration and deflection system for modification of semiconductor materials in laser-produced ion implantation”,
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology, 165 (2010) 528–533.

  1. L.Ryć, J. Krasa, T. Nowak, J. Kravarik, D. Klir, E. Krousky, A. Lorusso, D. Margarone, V. Massisi, M. Pfeifer, J. Skala, J. Ullschmied, A. Velyhan,
    „Application of sungle-cristal CVD diamond detector for simultaneous measurement of ions and X-rays from laser plasmas”,
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology, 165 (2010) 481-487.

  1. E. Skladnik-Sadowska, K. Malinowski, M.J. Sadowski, J.Wolowski, M. Kubkowska, P. Gąsior, M. Rosiński and M. Ladygina,
    „Study of plasma produced from deuterized-titanium irradiated by intense laser pulses”
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology 165 (2010) 412–418.

  1. L. Torrisi, L. Giuffrida, M. Rosinski, C. Schallhorn;
    "Ge and Ti post-ion acceleration from laser ion source",
    Nuclear Instruments and Methods in Physics Research B, 268 (2010) 2808–2814.

  1. J.Wolowski, P. Gąsior, J. Hoffman, M. Kubkowska, M. Rosiński and Z. Szymański,
    „Study of laser-induced removal of co-deposits from tokamak plasma-facing components using ion
    diagnostics and optical spectroscopy”,
    Radiation Effects & Defects in Solids: Incorporating Plasma Science & Plasma Technology 165 (2010) 434–440.

HiPER fusionForEnergyLogo logo EUROfusion iter Laserlab Europe Fusenet European Commission Logo MEiN

Projekty badawcze realizowane przez IFPiLM są finansowane ze środków Ministerstwa Edukacji i Nauki i Narodowego Centrum Nauki oraz ze środków Komisji Europejskiej na podstawie umowy grantowej No 633053, w ramach Konsorcjum EUROfusion. Wsparcia finansowego udzielają także: Międzynarodowa Agencja Energii Atomowej, Agencja Fusion for Energy, Europejska Agencja Kosmiczna i Konsorcjum LaserLab.

 

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