RAPID MATERIAL INTERROGATION USING X RAYS FROM A DENSE PLASMA FOCUS

Faculty Engineering Year: 2015
Type of Publication: ZU Hosted Pages:
Authors:
Mohammed Ismail Abdelaziz Mohamed
Journal: Kansas State University KSU Volume:
Keywords : RAPID MATERIAL INTERROGATION USING , RAYS FROM    
Abstract:
Dense Plasma Focus (DPF) devices are multi-radiation sources of X rays, neutrons (when working with deuterium), ions, and electrons in pulses typically of a few tens of nanoseconds. The Kansas State University device (KSU-DPF) was commi
    
     
 
       

Author Related Publications

  • Mohammed Ismail Abdelaziz Mohamed, "Measurement and processing of fast pulsed discharge current in plasma focus machines", Springer US, 2012 More
  • Mohammed Ismail Abdelaziz Mohamed, "Current sheet axial dynamics of 2.5-kj ksu-dpf under high-pressure regime", IEEE, 2012 More
  • Mohammed Ismail Abdelaziz Mohamed, "Deuteron beam characteristics of 2.5 kJ KSU-DPF as a high inductance dense plasma focus machine", IEEE, 2013 More
  • Mohammed Ismail Abdelaziz Mohamed, "Preliminary Results of Kansas State University Dense Plasma Focus", IEEE, 2012 More
  • Mohammed Ismail Abdelaziz Mohamed, "Kansas State University Dense Plasma Focus (KSU-DPF) initial neutron results", IEEE, 2011 More

Department Related Publications

  • Ola Ragab Abdou Mohamed, "Analysis of Composite Plates Using Moving Least Squares Differential Quadrature Method", Science Direct, 2014 More
  • Ola Ragab Abdou Mohamed, "Efficient Quadrature Solution for Composite Plate Problems", medwelljournals, 2014 More
  • Rasha Ibrahiem Saleh Mohamed, "Generalized extended method for solution of nonlinear diffusion equations", مجلة الهندسة والعلوم التطبيقية, 2014 More
  • Mohamed Mohamed Ali Mohamed Saied, "Three Resultant Applications In Surface Modeling For Computer Graphics", Second National Conference of Mathematics, Cairo 6-11 April 1996, 1996 More
  • Ahmed Saad Rashed Rashed Elsahar, "Similarity Analysis of Mass and Heat Transfer of FHD Steady Flow of Nanofluid Incorporating Magnetite Nanoparticles (Fe3O4)", East African Scholars Publisher, Kenya, 2020 More
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