Department Of Plasma Physics 1
1. A first-principles investigations of Lead-free SbPCa3 inverse perovskite for structural, electronic and optical properties with different DFT methods
2. Structural, Elastic, Mechanical, Electronic and Optical Properties of TlSnX3(X=Cl,Br,I) for Sustainable Energy Applications
3. Electron-atom interactions in dense semiclassical helium plasma
4. Study of the electron-atom collisions in dense semiclassical plasma of noble gases
5. Creative thinking as a driver for students transition to university 4.0 model
6. Innovation readiness for digital learning within the University 4.0 Model
7. Pedagogical Model for Raising Students’ Readiness for the Transition to University 4.0
8. Physics Students’ Innovation Readiness for Digital Learning within the University 4.0 Model: Essential Scientific and Pedagogical Elements That Cause the Educational Format to Evolve in the Context of Advanced Technology Trends
9. Retraction notice to “Creative thinking as a driver for students’ transition to university 4.0 model” (Thinking Skills and Creativity (2021) 41, (S1871187121001346), (10.1016/j.tsc.2021.100919))
10. Impact of Quantum Non-Locality and Electronic Non-Ideality on the Shannon Entropy for Atomic States in Dense Plasma
11. Coulomb logarithm and the Dreicer field in a dense semiclassical plasma
12. Effective interaction potentials and the scattering cross sections of the Lorentzian dense semiclassical plasma particles
13. Collision Frequency and Energy Transfer Rate in e–He Scattering
14. Improved Ionization Potential Depression Model Incorporating Dynamical Structure Factors and Electron Degeneracy for Non-Ideal Plasma Composition
15. Bound states of the hydrogen atom in high-density plasmas
16. Positron Production by Runaway Electrons in Lorentzian Plasmas
17. Designing effective STEM courses: a mixed-methods study of the impact of a STEM education course on teachers’ self-efficacy and course experiences
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