KHU - Kharazmi University; Plasma at Khu

PEOPLE

Ali Hasanbeigi

Ali Hasanbeigi

 

Associate Professor of Plasma Physics

Kharazmi University

P.O.Box 15614, Tehran, Iran

Phone: (+98) 86072780

Fax: (+98) 86072708
hbeigi@khu.ac.ir

Plasma Physics

 

 

Bio

Education

PhD in Plasma, Kharazmi University, Tehran, Iran (2010)
MSc in Gravity, Institute for Advanced studies in Basic sciences (IASBS), Zanjan, Iran (2000)
BSc in Physics, Tarbiat Moallem University, Tehran, Iran. (1998)

Honors and Awards

  • Excellence in Education award from the Kharazmi University, 2018
  • Distinguished Researcher awarded, Kharazmi University, 2015
  • Distinguished Researcher awarded, Kharazmi University, 2011
  • Distinguished student awarded, Kharazmi University, 2010
  • Ranked first in the Phd exam, 2006
  • Ranked first among graduate students of the department, Institute for Advanced Studies in Basic Sciences, between years of 1998 and 2000 in M.Sc,2000
  • Top student in BSc program, 1998
  • Introduced as a scientific elite by the National Elite Institute, 2008

Service to the profession 

  • Vice--Dean (education affairs), Faculty of physics, Kharazmi University (2016-2021).
  • Head,Departemetn of Physics, Kharazmi University (2012-2020).
  • Vice--Dean (research affairs) Faculty of physics, Kharazmi University (2012-2016).
  • Member of Farhangian University Recruitment Committee (2018-2020).
  • Member of faculty Recruitment Committee (2012-2020).
  • Member of Central Library Council (2012-2016).
  • download CV

Research

Plasma is an ionized gas and as a fourth sate of matter has interesting properties which are distinct from or-
dinary neutral gas or nonconducting fluids. The distinguishing feature of the plasma medium is that its pro-
perties are determined by the nature of the interactions between the charged particles in its collective rath-
er than binary and weak compared to their thermal motions. Plasma physicists and electrical engineers have
devoted a rapidly increasing amount of attention to the study of the instabilities caused by the streaming
of charged particle beams and waves through a plasma, primarily due to availability of powerful lasers and
other radiation sources such as Gyrotrons, Free-electron lasers, and their many applications including laser
fusion ,beat wave accelerators, and heating of laboratory and ionospheric plasmas by radiowaves. In our
group we develop theoretical investigation and numerical simulation of charge particle beam devices.

Publications

    Books written in persian

    Classical Mechanics General Physics
  1. 2005 Classical Mechanics (An education book for BSC students).
    Arak Azad University Press.

  2. 2006 General Physics (An education book for BSC students).
    Navay-e Danesh Press.

    Selected Publications

  1. Generation of low-Loss single TM-mode terahertz using plasma fiber


    Waves in Random and Complex Media , Accepted , (2022 )
  2. Nonlinear Propagation of Electrostatic Waves in Alkali-fullerene Plasmas


    Plasma Phys. Rep 47 3, 298 (2021 )
  3. Nonlinear simulation of TM mode free electron laser in rectangular waveguide with ion-channel


    Laser Phys 31 035002 (2021 )
  4. Magnetoacoustic solitons in Alkali-fullerene plasmas


    Indian Journal of Physics 95 6 (2021 )
  5. Coupling Instability of a Warm Relativistic Electron Beam with Ion-Channel Guiding


    Communications in Theoretical Physics 71 (10), 1236 (2019 )
  6. Generation of Coherent terahertz radiation from two-section periodical circular waveguide structure‏


    Modern Research Physics 5 (1), 1 (2019 )
  7. Nonlinear simulation of free electron laser in a rectangular waveguide and ion-channel guiding


    Physics of Plasmas 25 (12), 123108 (2018 )
  8. How a relativistic electron beam-ion channel system can act as a polarizer.


    Applied Optics 57 (24), 7030 (2018 )
  9. Dispersion properties of plasma cladded annular optical fiber


    Physics of Plasmas 25 (5), 053505 (2018 )
  10. DISPERSION AND GROWTH CHARACTERISTICS IN A CIRCULAR WAVEGUIDE LOADED WITH ALTERNATE METAL AND DIELECTRIC DISCS


    AIP Advances 08 (01), 015322 (2018 )
  11. Enhancement of output power in a two-section periodical circular waveguide structure using magnetized plasma and a relativistic electron beam


    Applied Physics B 124 (01), 25 (2018 )
  12. Enhancement of terahertz radiation from laser-bunched electron beam in a helical wiggler with axial magnetic field


    Iranian Journal of Physics Research 18 (03), 459 (2018 )
  13. The polarization evolution of electromagnetic waves as a diagnostic method for a motional plasma


    Applied Physics B 123 (12), 292 (2017 )
  14. Analysis of nested design of plasma antenna based on the azimuthally symmetric surface waves: UHF and SHF bands


    Physics of Plasmas 24 (10), 103304 (2017 )
  15. Interaction of electromagnetic and plasma waves in warm motional plasma: Density and thermal effects


    The European Physical Journal Plus 132 (08), 360 (2017 )
  16. Enhancement of intensity in a periodically layered metal-dielectric waveguide with magnetized plasma


    Physics of Plasmas 24 (07), 073103 (2017 )
  17. Interaction of plasma and electromagnetic waves in warm motional plasma: Local approximation method


    High Energy Density Physics 22, 55 (2017 )
  18. Kinetic description of a free electron laser with an electromagnetic-wave wiggler and ion-channel guiding by using the Einstein coefficient technique


    Laser Physics 26 (04), 045003 (2016 )
  19. Tunable Faraday effect in one-dimensional photonic crystals doped by plasma


    Optik-International Journal for Light and Electron Optics 127 (08), 3895 (2016 )
  20. Enhancement of terahertz radiation power from a prebunched electron beam using helical wiggler and ion-channel guiding


    Physics of Plasmas 22 (12), 123116 (2015 )
  21. A relativistic PIC model of nonlinear laser absorption in a finite-size plasma with arbitrary mass and density ratios


    Laser and Particle Beams 33 (04), 647 (2015 )
  22. The general dispersion relation of induced streaming instabilities in quantum outflow systems


    AIP Advances 05 (11), 117236 (2015 )
  23. Numerical study of electron acceleration by plasma wave in an ion channel under obliquely applied magnetic field


    Optik-International Journal for Light and Electron Optics 126 (21), 3299 (2015 )
  24. Magneto-optical properties of one-dimensional conjugated photonic crystal heterojunctions containing plasma layers


    Appl. Opt 54 (26), 7949 (2015 )
  25. Optical and magneto-optical properties of plasma-magnetic metamaterials


    Journal of Physics D: Applied Physics 48 (30), 305101 (2015 )
  26. INDUCED MAXIMUM MAGNETIC FIELD IN COSMIC OUTFLOW SYSTEM BY A RELATIVISTIC CURRENT FILAMENTATION INSTABILITY: EXACT ANALYTICAL MODEL


    The Astrophysical Journal 801 (02), 89 (2015 )
  27. INDUCED MAXIMUM MAGNETIC FIELD IN COSMIC OUTFLOW SYSTEM BY A RELATIVISTIC CURRENT FILAMENTATION INSTABILITY: EXACT ANALYTICAL MODEL


    The Astrophysical Journal 801 (02), 89 (2015 )
  28. A spatiotemporal study of the relativistic nonlinear effects on laser absorption by a finite-size magneto plasma


    The European Physical Journal D 68 (12), 358 (2014 )
  29. Linear theory of quantum two-stream instability in a magnetized plasma with a transverse wiggler magnetic field


    Laser and Particle Beams 32 (03), 353 (2014 )
  30. The effect of plasma background on the instability of two non-parallel quantum plasma shells in whole K space


    Physics of Plasmas 21 (07), 072106 (2014 )
  31. Growth rate enhancement of free-electron laser by two consecutive wigglers with axial magnetic field


    Pramana 82 (06), 1049 (2014 )
  32. Electron acceleration in an ion channel by a magnetized plasma wave


    Iranian Journal of Physics Research 14 (01), 83 (2014 )
  33. Filamentation instability of electron/ion beams in magnetized plasma waveguide


    Journal of Plasma Physics 80 (01), 81 (2014 )
  34. The effect of magnetic field on bistability in 1D photonic crystal doped by magnetized plasma and coupled nonlinear defects


    Physics of Plasmas 21 (01), 012101 (2014 )
  35. Influence of finite radial geometry on the growth rate of ion-channel free electron laser


    Physics of Plasmas 20 (11), 113114 (2013)
  36. Quantum instability of two non-parallel flows: Parallel wave propagation


    Physics letters A 377 (34), 2083 (2013)
  37. Filamentation instability of a laser beam in an inhomogeneous plasma in an arbitrarily oriented external magnetic field


    Journal of Plasma Physics 79 (5), 921 (2013)
  38. Kinetic description of a wiggler-pumped ion-channel free-electron laser by applying the Einstein coefficient technique


    Journal of Plasma Physics 79 (5), 853 (2013)
  39. The instability of two non-parallel plasma shells in quantum plasma


    Astrophysics and Space Science 346 (2), 421 (2013)
  40. Dispersion relation and growth rate for a corrugated channel free-electron laser with a helical wiggler pump


    Chinese Physics B 22 (7), 075205 (2013)
  41. Analysis of plasma-magnetic photonic crystal with a tunable band gap


    Physics of Plasmas 20 (4), 043505 (2013)
  42. Quantum statistical properties of free-electron laser with ion-channel guiding


    Journal of Plasma Physics 78 (05), 537 (2012)
  43. Filamentation instability of quantum magnetized plasma in the presence of an external periodic magnetic field


    Physics of Plasmas 19 (04), 042112 (2012)
  44. Linear theory of magnetized ion-channel free-electron laser


    Physics of Plasmas 19 (02), 023108 (2012 )
  45. The Solution of the Spherical Raman–Nath Equation for Free-Electron Laser in the Presence of Ion-Channel Guiding


    Journal of fusion energy 31 (05), 463 (2012 )
  46. Gain calculation of a free-electron laser operating with a non-uniform ion-channel guide


    Chinese Physics B 20 (09), 094103 (2011 )
  47. Controlling chaotic behavior of the equilibrium electrons by simultaneous using of two guiding fields in a free-electron laser with an electromagnetic-wave wiggler


    Physics of Plasmas 18 (04), 043104 (2011 )
  48. Kinetic description of self-field effects on laser and betatron emission in wiggler-pumped ion-channel free electron lasers


    Physica Scripta 83 (03), 035401 (2011 )
  49. Self-field effects on small-signal gain in two-stage free-electron lasers


    Physics of Plasmas 76 (03), 489 (2011 )
  50. High-Power Microwave Generation by a Periodic Focusing Quadrupole Transport System


    Physics of Plasmas 39 (02), 761 (2011 )
  51. Comment on "Chaotic electron trajectories in an electromagnetic wiggler free-electron laser with ion-channel guiding"[Phys. Plasmas 17, 093103 (2010)]


    Physics of Plasmas 18 (05), 054703 (2011 )
  52. Generation of stimulated emission from a relativistic beam by magnetized dusty plasma crystals (DPCs)


    Plasma Physics and Controlled Fusion 52 (05), 055005 (2010 )
  53. Effect of the Electron‐Beam Self‐Fields on Gain in an Optical Wiggler Pumped Free‐Electron Laser


    Contributions to Plasma Physics 50 (02), 156 (2010 )
  54. Free-electron laser harmonic generation in an electromagnetic-wave wiggler and ion channel guiding


    Physics of Plasmas 17 (02), 023112 (2010 )
  55. Free-electron lasers with magnetized ion-wiggler


    Nuclear Instruments and Methods in Physics Research Section A 604 (03), 471 (2009 )
  56. Self-fields in a free-electron laser with electromagnetic-wave wiggler and ion-channel guiding


    Physics of Plasmas 15 (12), 123101 (2008 )
  57. Steady-state electron trajectories and growth rate in electromagnetically pumped free-electron laser with specific nonuniform magnetic field


    Physics of Plasmas 15 (07), 073102 (2008 )
  58. Dispersion relation and growth rate in electromagnetically pumped free-electron lasers with ion-channel guiding


    Physics of Plasmas 15 (07), 073103 (2008 )
  59. Two-stream instability in free electron lasers with a planar wiggler and an axial guide magnetic field


    Physics of Plasmas 15 (04), 043103 (2008 )
  60. Publications: Paper Abstracts & Congresses; National &International

  61. Effect of plasma drift velocity on the electron acceleration gradient in a motional magnetized plasma-filled waveguide,


    The 10th IRAN NATIONAL VACUUM CONFERENCE,Tabriz, IRAN, 147-153 (2022).
  62. Effect of magnetic field on electron acceleration gradient in a plasma-filled waveguide by twisted electromagnetic waves,


    The 28th Iranian Conference on Optics and Photonics (ICOP 2022) and the 14th Iranian Conference on Photonics Engineering and Technology (ICPET 2022).
  63. Collisiorial absorption of twisted laser beam in an inhomogeneous plasma column,


    Proceedings of annual physics conference of Iran, Tabriz University, 347-350 (2019).
  64. PIC simulation of scattering and absorption of an ultra intense short-pulse laser in a finite-size plasma,


    28th IUPAP Conference on Computational Physics in (2016).
  65. Maximum magnetic field in cosmic outflows systems,


    Plasma Sciences (ICOPS), IEEE International Conference on, 1-1 (2015).
  66. The effect of drift space length on the Terahertz radiation in a helical wiggler


    The 3th confence of engenearing and physics of plasmas, Iran, Tabriz, 461 (2015).
  67. Numerical study of electron acceleration by a magnetized Plasma wave


    Conference on Computational Physics (CCP2012) 454, 011001 (2012).
  68. Dispersion relation of Raman FEL with helical Wiggler and ion channel


    Proceedings of Annual Physics Conference of Iran, yazd, 440-444,(2012).
  69. The Influence of Electron Beam Radius on Free Electron Laser instability with Longitudinal Magnetic Wiggler


    Proceedings of Annual Physics Conference of Iran, yazd, 2447-2450,(2012).
  70. The effect of various parameters on the filamentation instability in a relativistic magnetized plasma


    Proceedings of Annual Physics Conference of Iran, yazd, 2527-2730,(2012).
  71. Growth rate of Farley-Buneman instability in dusty plasmas


    Proceedings of Annual Physics Conference of Iran, yazd, 2474-2477,(2012).
  72. Dispersion relation of low frequency Alfven waves in cold quantum magneto-plasma


    Proceedings of Annual Physics Conference of Iran, yazd, 2519-2522,(2012).
  73. Effects of density of particles on longitudinal two stream instabilities


    Proceedings of Annual Physics Conference of Iran, yazd, 2519-2522,(2012).
  74. Comparison of the Orbit Groups for both Dusty Plasma Crystal (DPCs) and wiggler Pumped Free Electron Laser (FEL)


    33st International FEL Conference, SHANGHI, CHINA (2011).
  75. Gain of quantum free electron laser with axial magnetic field


    The 4th International Workshop on Plasma Science and Applications, ,Tehran , Iran (2011).
  76. Two stream filamentation instability in a quantum magnetized plasma


    The 4th International Workshop on Plasma Science and Applications, Tehran , Iran (2011).
  77. Influenceof free-electron laser parameters and axial magnetic field on the growth rate


    The 4th International Workshop on Plasma Science and Applications, Tehran , Iran (2011).
  78. Numerical investigation of electron acceleration by plasma wave in the presence of non-uniform magnetic field


    The 4th International Workshop on Plasma Science and Applications, Tehran , Iran (2011).
  79. Electron trajectories of a wiggler pumped free-electron laser with axial magnetic field and ion-channel guiding


    The 4th International Workshop on Plasma Science and Applications, Tehran , Iran (2011).
  80. Growth rate of jeans instability in quantum dusty plasma


    Proceedings of annual physics conference of Iran, Urmia University, 1634-1636, September (2011).
  81. Investigation of the electron orbits in a dusty plasma free electron laser


    Proceedings of annual physics conference of Iran, Urmia University, 1272-1275, September (2011).
  82. Electron trajectories in Free electron laser with an elliptically polarized static wiggler field


    Proceedings of annual physics conference of Iran, Urmia University, 1285-1288, September (2011).
  83. Guiding Effects on Electron Trajectories in an Electromagnetically Pumped Free Electron Laser


    31st International Free Electron Laser Conference, BT Convention Centre, Liverpool, UK (2009).

Teaching

    Courses Currently Teaching:

    3991pm2 Plasma Medicine II.

Courses Taught before:

3982ap2 Advanced plasma physics II.
3982etl Electromagnetic Theory of Light.
3982pm1Plasma Medicine I.
3981cp1Computational Physics.
3981ap1Advanced plasma physics I.
3961ed1 Electrodynamics
3971aq1Advanced Quantum Mechanics I.
3972aq2Advanced Quantum Mechanics II
3951st1Special Topics (PHD).
3941cm1Classical Mechanics I.
3942cm2Classical Mechanics II.
3931em1Electromagnetic I.
3931em2Electromagnetic II.
3921qm1Quantum Mechanics I.
3922qm2Quantum Mechanics II.