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Referencias:

• Bennett, F.D., Cylindrical shock waves from exploding wires (1958) Phys. Fluids, 1, pp. 347-352
• Bennett, F.D., (1961) Shock Waves from Exploding Wires at Low Ambient Densities, , Technical Report 1152, Ballistic Research Laboratories
• Bennett, F.D., High temperature exploding wires (1969) Progress in High Temperature Physics and Chemistry, 2, pp. 1-61. , London: Pergamon Press
• Bibbo, L., Giovambatista, N., Gomez, P., Olivieri, M., Tibaldi, C., Bernal, L., Pouzo, J., Bilbao, L., Optical measurements in an exploding wire experiment (1998) Astrophys. Space Sci, 256, pp. 467-472
• Burkhalter, P.G., Oozier, C.M., Nagel, D.J., X-ray spectra from exploded-wire plasmas (1977) Phys. Rev. A, 15, pp. 700-717
• Chandler, K.M., Hammer, D.A., Sinars, D.B., Pikuz, S.A., Shelkovenko, T.A., The relationship between exploding wire expansion rates and wire material properties near the boiling temperatue (2002) IEEE Trans. Plasma Sci, 30, pp. 577-587
• Duselis, P.U., Kusse, B.R., Experimental observation of plasma formation and current transfer in fine wire expansion experiments (2003) Phys. Plasmas, 10, pp. 565-568
• Efimov, S., Fedotov, A., Gleizer, S., Gurovich, V.T.Z., Bazalitski, G., Krasik, Y.A.E., Characterization of converging shock waves generated by underwater electrical wire array explosion (2008) Phys. Plasmas, 15, p. 112703
• Esaulov, A.A., Johnson, W.R., Safronova, A.S., Safronova, U.I., Kantsyrev, V.L., Weller, M.E., Ouart, N.D., Plasma ionization and resistivity models in application to radiative properties of z-pinches (2011) High Energy Phys, 8, pp. 217-223
• Gilburd, L., Efimov, S., Fedotov, G.A., Gurovich, V.T.Z., Bazalitski, G., Antonov, O., Krasik, Y.A.E., Modified wire array underwater electrical explosion (2012) Laser Part. Beams, 30, pp. 215-224
• Jennings, C.A., Cuneo, M.E., Waisman, E.M., Sinars, D.B., Ampleford, D.J., Bennett, G.R., Stygar, W.A., Chittenden, J.P., Simulations of the implosion and stagnation of compact wire arrays (2010) Phys. Plasmas, 17, p. 092703
• Knudson, M.D., Desjarlais, M.P., Becker, A., Lemke, R.W., Cochrane, K.R., Savage, M.E., Bliss, D.E., Redmer, R., Direct observation of an abrupt insulatorto-metal transition in dense liquid deuterium (2015) Science, 348, pp. 1455-1460
• Kotov, Y.U.A., Electric explosion of wires as a method for preparation of nanopowders (2003) J. Nanopart. Res, 5, pp. 539-550
• Krasik, Y.A.E., Grinenko, A., Sayapin, A., Efimov, S., Fedotov, A., Gurovich, V.Z., Oreshkin, V.I., Underwater electrical wire explosion and its applications (2008) IEEE Trans. Plasma Sci, 36, pp. 423-434
• Krasik, Y.A.E., Grinenko, A., Sayapin, A., Gurovich, V.T.Z., Generation of sub-Mbar pressure by converging shock waves produced by the underwater electrical explosion of a wire array (2006) Phys. Rev. e, 73, p. 057301
• Liverts, M., Ram, O., Sadot, O., Apazidis, N., Ben-Dor, G., Mitigation of exploding-wire-generated blast-waves by aqueous foam (2015) Phys. Fluids, 27, p. 076103
• Nairne, E., An account of the effect of electricity in shortening wires (1780) Philos. Trans. R. Soc. London, 70, pp. 334-337. , http://www.jstor.org/stable/106384
• Sinton, R.P.W., Hammond, C., Enright, W., Bodger, P., Generating high voltages with a plasma coil transformer (2009) Proceedings of TechCon, 2009, pp. 211-219
• Sarkisov, G.S., Struve, K.W., McDaniel, D.H., Effect of deposited energy on the structure of an exploding tungsten wire core in a vacuum (2005) Phys. Plasmas, 12, p. 052702
• Sheftman, D., Krasik, Y.A.E., Investigation of electrical conductivity and equations of state of non-ideal plasma through underwater electrical wire explosion (2010) Phys. Plasmas, 17, p. 112702
• Sinars, D.B., Cuneo, M.E., Yu, E.P., Lebedev, S.V., Cochrane, K.R., Jones, B., Macfarlane, J.J., Wenger, D.F., Measurements and simulations of the ablation stage of wire arrays with different initial wire sizes (2006) Phys. Plasmas, 13, p. 042704
• Sinars, D.B., Hu, M., Chandler, K.M., Shelkovenko, T.A., Pikuz, S.A., Greenly, J.B., Hammer, D.H., Kuss, B.R., Experiments measuring the initial energy deposition, expansion rates and morphology of exploding wires with about 1 ka∼ Owire (2001) Phys. Plasmas, 8, pp. 216-230
• Sindhu, T.K., Sarathi, R., Chakravarthy, S.R., Understanding nanoparticle formation by awire explosion process through experimental and modelling studies (2008) Nanotechnology, 19, p. 025703
• Smith, D., Enright, W., Bodger, P.S., A test circuit for long distance directional plasma discharge using the exploding wire technique (2007) XVth International Symposium on High Voltage Engineering, pp. T3-489. , Ljubljana, Slovenia
• Stephens, J., Neuber, A., Exploding-wire experiments and theory for metal conductivity evaluation in the sub-eV regime (2012) Phys. Rev. e, 86, p. 066409
• Ter-Oganesyan, A.E., Tkachenko, S.I., Romanova, V.M., Mingaleev, A.R., Shelkovenko, T.A., Pikuz, S.A., Nanosecond electric explosion of a tungsten wire in different media (2005) Plasma Phys. Rep, 31, pp. 916-926
• Vijayan, T., Rohatgi, V.K., Characteristics of explodingwire plasmas (1985) IEEE Trans. Plasma Sci, PS13, pp. 197-201

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