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Neutron yield and ion production with respect to cathode radius in spherical plasma focus

Year 2020, Volume: 4 Issue: 1, 22 - 31, 31.03.2020
https://doi.org/10.30521/jes.703313

Abstract

The effect of the cathode radius variation (from 11.5 cm to 17 cm) on neutron yield, discharge current, plasma temperature, and ion properties (velocity, energy, and density) are investigated in this study using the developed spherical plasma focus model and the results are reported in this paper. Peak discharge current and peak beam-ion properties decrease with increasing the cathode radius. Maximum plasma temperature (22.34 eV) and maximum beam-target neutron yield (1.18×1013) are achieved using the cathode with 15 cm radius. The longest pinch duration for all calculations is also achieved using 15 cm cathode radius. It is found that the optimum cathode radius is 15 cm in terms of the neutron yield, plasma temperature and beam-ion properties in spherical plasma focus device.

Project Number

119F039

References

  • [1] Hill, R., Hubbs, J., A multi-shot plasma focus with improved cathode design, Physics Letters A, 1983, 98(8), 417-420.
  • [2] Wong, D., Lee, P., Zhang, T., Patran, A., Tan, T., Rawat, R., Lee, S., An improved radiative plasma focus model calibrated for neon-filled nx2 using a tapered anode, Plasma Sources Science and Technology, 2006, 16(1), 116.
  • [3] Borthakur, T., Talukdar, N., Neog, N., Rao, C., Shyam, A., Detection efficiency vs. cathode and anode separation in cylindrical vacuum photodiodes used for measuring x-rays from plasma focus device, Review of Scientific Instruments, 2011, 82(10), 103507.
  • [4] Khan, M.Z., Yap, S.L., Khan, M.A., Rehman, A., Zakaullah M., Effect of cathode designs on radiation emission of compact diode (cd) device, Journal of Fusion Energy, 2013, 32(1), 34-41.
  • [5] Hayati, M., Roshani, G., Abdi, H., Rezaei, A., Mahtab, M., An optimized design of anode shape based on artificial neural network for achieving highest x-ray yield in plasma focus device, Journal of Fusion Energy, 2013, 32(6), 615-621.
  • [6] Kubes, P., Paduch, M., Sadowski, M., Cikhardt, J., Cikhardtova, B., Features of fast deuterons emitted from plasma focus discharges, Physics of Plasmas, 2019, 26(3), 032702.
  • [7] Talebitaher, A., Springham, S.V., Rawat, R.S., Lee, P., Plasma focus neutron anisotropy measurements and influence of a deuteron beam obstacle, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2017, 848, 60-65.
  • [8] Lim, L.K., Yap, S.L., Bradley, D., Time-resolved characteristics of deuteron beam generated by plasma focus discharge, Plos One, 2018, 13(1), e0188009.
  • [9] Gourdain, P.A., Greenly, J.B., Hammer, D.A., Knapp, P.F., Kusse, B.R., The impact of cathode diameter on radial foil explosions, IEEE Transactions on Plasma Science, 2010, 38(12), 3363-3369.
  • [10] Piriaei, D., Javadi, S., Mahabadi, T.D., Yousefi, H.R., Elahi, A.S., The influence of the cathode array and the pressure variations on the current sheath dynamics of a small plasma focus device in the presence of an axial magnetic probe, Physics of Plasmas, 2017, 24(4), 043504.
  • [11] Verma, R., Rawat, R.S., Lee, P., Lee, S., Springham, S.V., Tan, T.L., Krishnan, M., Effect of cathode structure on neutron yield performance of a miniature plasma focus device, Physics Letters A, 2009, 373, 2568-2571.
  • [12] Beg, F.N., Zakaullah, M., Nisar, M., Murtaza, G., Role of anode length in a mather-type plasma focus, Modern Physics Letters B, 1992, 6(10), 593-597.
  • [13] Ay, Y., Al-Halim, M.A., Bourham, M.A., Simulation of the plasma sheath dynamics in a spherical plasma focus, The European Physical Journal D, 2015, 69(9).
  • [14] Ay, Y., Al-Halim, M.A., Bourham, M.A., MHD simulation for neutron yield, radiations and beam-ion properties in the spherical plasma focus, Journal of Fusion Energy, 2015, 35(2), 407-414.
  • [15] Ay, Y., A neutron source with 1014 DT neutron yield, International Journal of Modern Physics E, 2020, 28(11), 1950097.
  • [16] Ay, Y., Effect of the cathode radius on plasma dynamics and radiation emissions in a spherical plasma focus device, Physics of Plasmas, 2019, 26(10), 102506.
Year 2020, Volume: 4 Issue: 1, 22 - 31, 31.03.2020
https://doi.org/10.30521/jes.703313

Abstract

Supporting Institution

Türkiye Bilimsel ve Teknolojik Araştırma Kurumu (TUBİTAK)

Project Number

119F039

References

  • [1] Hill, R., Hubbs, J., A multi-shot plasma focus with improved cathode design, Physics Letters A, 1983, 98(8), 417-420.
  • [2] Wong, D., Lee, P., Zhang, T., Patran, A., Tan, T., Rawat, R., Lee, S., An improved radiative plasma focus model calibrated for neon-filled nx2 using a tapered anode, Plasma Sources Science and Technology, 2006, 16(1), 116.
  • [3] Borthakur, T., Talukdar, N., Neog, N., Rao, C., Shyam, A., Detection efficiency vs. cathode and anode separation in cylindrical vacuum photodiodes used for measuring x-rays from plasma focus device, Review of Scientific Instruments, 2011, 82(10), 103507.
  • [4] Khan, M.Z., Yap, S.L., Khan, M.A., Rehman, A., Zakaullah M., Effect of cathode designs on radiation emission of compact diode (cd) device, Journal of Fusion Energy, 2013, 32(1), 34-41.
  • [5] Hayati, M., Roshani, G., Abdi, H., Rezaei, A., Mahtab, M., An optimized design of anode shape based on artificial neural network for achieving highest x-ray yield in plasma focus device, Journal of Fusion Energy, 2013, 32(6), 615-621.
  • [6] Kubes, P., Paduch, M., Sadowski, M., Cikhardt, J., Cikhardtova, B., Features of fast deuterons emitted from plasma focus discharges, Physics of Plasmas, 2019, 26(3), 032702.
  • [7] Talebitaher, A., Springham, S.V., Rawat, R.S., Lee, P., Plasma focus neutron anisotropy measurements and influence of a deuteron beam obstacle, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2017, 848, 60-65.
  • [8] Lim, L.K., Yap, S.L., Bradley, D., Time-resolved characteristics of deuteron beam generated by plasma focus discharge, Plos One, 2018, 13(1), e0188009.
  • [9] Gourdain, P.A., Greenly, J.B., Hammer, D.A., Knapp, P.F., Kusse, B.R., The impact of cathode diameter on radial foil explosions, IEEE Transactions on Plasma Science, 2010, 38(12), 3363-3369.
  • [10] Piriaei, D., Javadi, S., Mahabadi, T.D., Yousefi, H.R., Elahi, A.S., The influence of the cathode array and the pressure variations on the current sheath dynamics of a small plasma focus device in the presence of an axial magnetic probe, Physics of Plasmas, 2017, 24(4), 043504.
  • [11] Verma, R., Rawat, R.S., Lee, P., Lee, S., Springham, S.V., Tan, T.L., Krishnan, M., Effect of cathode structure on neutron yield performance of a miniature plasma focus device, Physics Letters A, 2009, 373, 2568-2571.
  • [12] Beg, F.N., Zakaullah, M., Nisar, M., Murtaza, G., Role of anode length in a mather-type plasma focus, Modern Physics Letters B, 1992, 6(10), 593-597.
  • [13] Ay, Y., Al-Halim, M.A., Bourham, M.A., Simulation of the plasma sheath dynamics in a spherical plasma focus, The European Physical Journal D, 2015, 69(9).
  • [14] Ay, Y., Al-Halim, M.A., Bourham, M.A., MHD simulation for neutron yield, radiations and beam-ion properties in the spherical plasma focus, Journal of Fusion Energy, 2015, 35(2), 407-414.
  • [15] Ay, Y., A neutron source with 1014 DT neutron yield, International Journal of Modern Physics E, 2020, 28(11), 1950097.
  • [16] Ay, Y., Effect of the cathode radius on plasma dynamics and radiation emissions in a spherical plasma focus device, Physics of Plasmas, 2019, 26(10), 102506.
There are 16 citations in total.

Details

Primary Language English
Subjects Electrical Engineering
Journal Section Research Articles
Authors

Yaşar Ay 0000-0002-9888-8700

Project Number 119F039
Publication Date March 31, 2020
Acceptance Date March 28, 2020
Published in Issue Year 2020 Volume: 4 Issue: 1

Cite

Vancouver Ay Y. Neutron yield and ion production with respect to cathode radius in spherical plasma focus. Journal of Energy Systems. 2020;4(1):22-31.

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