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References 1. Liberman, M. A., De Groot, J. S., Toor, A., & Spielman, R. B. (1999). Physics of high-density Z-pinch plasmas . New York: Springer. 2. Zielinska, E., Paduch, M., & Scholz, M. (2011). Sixteen-frame interferometer for a study of a pinch dynamics in PF-1000 device. Conrib. Plasma Phys. , 51 , 279. 3. Paduch, M. (2009). The diagnostics problems at implementation of Plasma Focus technique in material and environmental sciences , Tallinn University Dissertations on Natural Sciences, Tallinn. 4. Kubes, P., Klir, D., Kravarik, J., Rezac, K., Kortanek, J

References 1. Goncharov, A. A., & Brown, I. G. (2007). Plasma devices based on the plasma lens: A review of results and applications. IEEE Trans. Plasma Sci., 35(4), 986-991. 2. Goncharov, A., Dobrovolskiy, A., Dunets, S., Evsyukov, A., Litovko, I., Gushenets, V., & Oks, E. (2011). Positive-space-charge lens for focusing and manipulating high-current beams of negatively charged particles. IEEE Trans. Plasma Sci., 39(6), 1408-1411. 3. Gushenets, V., Goncharov, A., Dobrovolskiy, A., Dunets, S., Litovko, I., Oks, E., & Bugaev, A. (2013). Electrostatic plasma lens

References 1. Barral, S., Kurzyna, J., Szelecka, A., Rachubiński, H., Remírez, E., Martín, R., Ortiz, P., Alonso, J., Bottinelli, S., Mabillard, Y., Zaldívar, A., Rangsten, P., & Koppel, C. (2014). First experimental characterization of a pulsed plasma thruster with non-volatile liquid propellant. In Proceedings of Space Propulsion Conference, 19–22 May 2014. Cologne, Germany. 2. Rezaeiha, A., & Schönherr, T. (2013). Overview of alternative propellants for use in PPT. In 29th International Symposium on Space Technology and Science ISTS, 2–9 June 2013. Nagoya

References 1. Ladygina, M. S., Garkusha, I. E., Marchenko, A. K., Makhlai, V. A., Sadowski, M. J., Skladnik-Sadowska, E., Aksenov, N. N., & Tereshin, V. I. (2011). Spectroscopy of plasma surface interaction in experiments simulating ITER transient events. Fusion Sci. Technol., 60(1T), 27-33. 2. Sadowski, M. J., Gribkov, V. A., Kubes, P., Malinowski, K., Skladnik-Sadowska, E., Scholz, M., Tsarenko, A., & Zebrowski, J. (2006). Application of intense plasma-ion streams emitted from powerful PF-type discharges for material engineering. Phys. Scr., T123, 66-78. 3

. Drugs 1997, 53 , 349-357. 7. Darrington R.T., Zhang L., Ji Q., Rafka R.J., Morton B.J.: Equilibrium, kinetics, and mechanism of acyl migration in tulathromycin, a novel triamilide antibiotic. AAPS Pharm Sci 2003, 5 , 1187-1189. 8. Galer D., Hessong S., Beato B., Risk J., Inskeep P., Weerasinghe C., Schneider R., Langer C., LaPerle J., Renouf D., Bessire A., Español E., Rafka R., Ragan C., Boettner W., Murphy T., Keller D., Benchaoui H., Nowakowski M.: An analytical method for the analysis of tulathromycin, an equilibrating triamilide, in bovine and porcine plasma

). Investigation of interactions of intense plasma streams with tungsten and carbon fibre composite targets in the PF-1000 facility. Phys. Scr., T161, 014038. DOI: 10.1088/0031-8949/2014/ T161/014038. 3. Scholz, M., Drozdowicz, K., Karpinski, L., Krauz, V., Kubes, P., Paduch, M., Pisarczyk, T., Sadowski, M. J., Woznicka, U., Zielinska, E., Czaus, K., Malinowski, K., Skladnik-Sadowska, E., & Zebrowski, J. (2013). Status of Plasma-Focus research in Poland. In Proceedings International Conference PLASMA-2013, Warsaw, Poland, 2-6 September 2013. (Tutorial lecture T10). 4. Skladnik

References 1. Knittel, D.; Schollmeyer, E. Functional group analysis on oxidized surfaces of synthetic textile polymers. Talanta 2008 , 76 , 1136–1140. 2. Kostov, K.G.; Nishime, T.M.C.; Castro, A.H.R.; Toth, A.; Hein L.R.O. Surface modification of polymeric materials by cold atmospheric plasma jet. Appl. Surf. Sci. 2014 , 314 , 367–375. 3. Keiko, G.; Shohbuke, E.; Kobayashi, Y.; Yamada, H. Wettability control of PET surface by plasma-induced polymer film deposition and plasma/UV oxidation in ambient air. Colloids Surf. A. 2018 , 556 , 1–10. 4. Wohlfart

References 1. Kubes, P., Paduch, M., Cikhardt, J., Kortanek, J., Cikhardtova, B., Rezac, K., Klir, D., Kravarik, J., & Zielinska, E. (2014). Filamentary structure of plasma produced by compression of puffing deuterium by deuterium or neon plasma sheath on plasma-focus discharge. Phys. Plasmas, 21, 122706. 2. Kubes, P., Paduch, M., Cikhardt, J., Kortanek, J., Batobolotova, B., Rezac, K., Klir, D., Kravarik, J., Surala, W., Zielinska, E., Scholz, M., Karpinski, L., & Sadowski, M. J. (2014). Neutron production from puffing deuterium in plasma focus device. Phys

References 1. Scholz, M., Drozdowicz, K., Karpinski, L., Krauz, V., Kubes, P., Paduch, M., Pisarczyk, T., Sadowski, M. J., Kurowski, A., Igielski, A., Dankowski, J., Woznicka, U., Janik, W., Czaus, K., Malinowski, K., Kwiatkowski, R., Skladnik-Sadowska, E., & Zebrowski, J. (2013). Status of Plasma-Focus rese arch in Poland. In Proceedings of the International Conference PLASMA-2013, 2–6 September 2013 (T10). Warsaw, Poland. 2. Skladnik-Sadowska, E., Kwiatkowski, R., Malinowski, K., Sadowski, M. J., Kubkowska, M., Paduch, M., Scholz, M., & Zielinska, E. (2012

References 1. Petrov, P. P., Filippov, N. V., Filippova, T. I., & Khrabrov, V. A. (1960). Powerful pulsed gas discharges in chambers with conducting walls. In M. A. Leontovich (Ed.), Plasma physics and the problem of controlled thermonuclear reactions (Vol. 4, pp. 198-212). New York: Pergamon Press. 2. Filippov, N. V., Filippova, T. I., & Vingredov, V. P. (1962). Dense, high-temperature plasma in a noncylindrical Z-pinch compression. Nucl. Fusion Suppl., 2, 577-587. 3. Mather, J. W. (1964). Investigation of the high-energy acceleration mode in the coaxial gun