SHAHID BEHESHTI UNIVERSITY

PHYSICS DEPARTMENT

Courses

Fall (2014)

Phd Course

Plasma Electrodynamics

 

Chapter1

Basic Concepts of Plasma Physics.

Chapter2

Principles of Electrodynamics of Media with Dispersion in Space and Time.

Chapter3

Equations of Plasma Dynamics.

Chapter4

Dielectric Permittivity and Oscillation Spectra of Unmagnetized Plasmas.

Chapter5

Dielectric Permittivity and Oscillation Spectra of Homogeneous Magneto-Active Plasmas.

 

 

Reference: Principles Of Plasma Electrodynamics

 

        A.F. Alexandrov

        L. S. Bogdankevich

        A. A. Rukhadze

 

 

 

Graduate Course

Advance Plasma Physics 1

 

 

Chapter1

Introduction To Plasma Physics.

Chapter2

Thermodynamics and Statistical Mechanics of Equilibrium Plasmas.

Chapter3

Macroscopic Properties of Plasmas.

Chapter4

Waves in The Fluid Plasma.

Chapter5

Stability of The Fluid Plasma.

 

Reference: Principles Of Plasma Physics 

 

     Nicholas A. Krall

     Alvin W. Trivelpiece

 

 

 

undergraduate Course

 Plasma Physics

 

Chapter1

Introduction To Plasma Physics.

Chapter2

Single Particle Motion in Electric and Magnetic Fields.

Chapter3

Plasma as a Fluid.

Chapter4

Waves in Plasma.

Chapter5

Particle Diffusion in Plasma.

 

 

 Reference: Plasma Physics and Control Fusion 

           F. Chen

 

 

 

 

 

 

 

 

 

Contact Us


 

Shahid Beheshti University

Physics Department

Evin, Tehran , Iran

Filed of Research : Plasma Physics

Rome Number: 405

Tel: +98 21 2990 5041

Fax: +98 21 2243 1666

E mail:

 

 

 

Journal Publication

 

1- B. Shokri and M. Ghorbanalilu ," Wiebel instability of microwave gas discharge in strong linear and circular pulsed fields", phys. plasmas , 11, 2989, (2004).

2-B. Shokri and M. Ghorbanalilu ," Low frequency instability of circularly polarized microwave pulsed field produced plasmas ," phys. plasmas , 11, 5162, (2004).

3-B. Shokri and M. Ghorbanalilu, A.A. Rukhadze," Low frequency instability instability of plasmas produced by linearly polarized microwave pulsed fields" , Phys. Lett. A, 329, 362-368, (2004).

4-B. Shokri and M. Ghorbalalilu," Relativistic effect on the weibel instability of circularly polarized microwave produced plasma",  phys. Plasmas, 11, 5398, (2004).

5- B. Shokri and M. Ghorbanalilu," Parametric instability in microwave discharge with linear polarization pulsed field", phys. Plasmas, 12, 043506, (2005).

6-B. Shokri and M. Ghorbanalilu," Magnetic field effect on a plasma produced by circularly polarized pulsed microwave fields",  Phys. Lett. A, 342, 341-346, (2005).

7-M. Ghorbanalilu and B. Shokri," Resonance parametric instability in microwave gas discharges produced by circular polarization fields",  phys. Plasmas, 13, 022102, (2006).

8-M. Ghorbanalilu, "The Weibel instability on stronglt magnetized microwave produced plasma", phys. Plasmas, 13, 102110, (2006).

9-M. Ghorbanalilu and B. Shokri, " The extraordinary wave excitation in microwave  produced plasma in the adiabatic approximation", phys. Plasmas,   15, 093509, (2008).

10-M. Ghorbanalilu and B. Shokri," Electrostatic instabilities in circularly polarized microwave produced magnetized plasmas",  phys. Plasmas,   16,  123505, (2009).

11-M. Ghorbanalilu, " Focusing of intense laser beam by axially magnetized plasma lens",  phys. Plasmas,   17,  023111, (2010).

12- M. Ghorbanalilu, " On the stability analysis of electromagnetic waves along the external magnetic field in a magnetized microwave produced plasma",  Plasma Phys. Control Fusion 53,  035006  (2011) .

13- M. Ghorbanalilu, " Axially magnetized electron–positron and electron plasma competition on the self focusing of intense laser beam",  Optics Communications, 285, 669-672. (2012). 

14- M. Ghorbanalilu, " Second and third harmonics generation in the interaction of strongly magnetized dense plasma with an intense laser beam ",  Laser and particle Beams,  Vo 30,  issue 02,  291-298 (2012). 

15-M. Ghorbanalilu, " Reduction of laser pulse diffraction by magnetized electron-positron plasma lens", IEEE Trans. on plasma sci. , Vol. 40,  No. 12, PP. 3402-3408 (2012) .

16- M. Ghorbanalilu, " Resonance and non-resonance Weibel-like modes generation in optical breakdown of a dilute neutral gas  by an intense laser field ", Plasma Phys. Control Fusion 55,  045002  (2013). 

17- M. Ghorbanalilu, S. Sadegzadeh, Z. Ghaderi, and A. R. Niknam, "Weibel instability for a streaming electron, counterstreaming e-e, and e-p plasmas with intrinsic temperature anisotropy", Phys. Plasmas, 21, 052102  (2014).

18-M. Ghorbanalilu, Elahe Abdollahzadeh and S.H. Ebrahimnazhad Rahbari, "Particle-in-cell simulation of two stream instability in the non-extensive statistics", Laser and particle Beams, Vo 32, issue 03, 399-407  (2014).

19- M. Sedaghat, M. Ettehadi-Abari, B. Shokri and M. Ghorbanalilu, "The effect of external magnetic field on the bremsstrahlung nonlinear absorption mechanism in the interaction of high intensity short laser pulse with collisional underdense plasma", Phys. Plasmas, 22, 033114  (2015).

20- Sina Mohsenian, Mahdieh S. Esmaili, Babak Shokri , Mohammad Ghorbanalilu, "Physical characteristics of twin DC thermal plasma torch applied to polymer waste treatment", Journal of Electrostatics, 76,  231-237 (2015).

21- M. Ettehadi-Abari, M. Sedaghat, B. Shokri and M. Ghorbanalilu " Absorption of short laser pulses in underdense plasma by considering ohmic heating and ponderomotive force effects", Plasma Phys. Control Fusion 57,  085001 (2015)

22- M. Ghorbanalilu and B. Shokri " Amplification of filamentation instability by negative hydrogen ions stream  driven by a magnetized counterstreaming eH plasmas", Laser and particle Beams Vol. 33, 481–487  (2015).
23- D. Hassanpor, M. Ghorbanalilu, "Self-focusing and self-channeling of short circularly laser pulse propagation in a magnetized plasma channel ", Journal of plasma physics,  81 (05), 905810504 (2015).

24- M. Akbari-Moghanjoughi and M. Ghorbanalilu, "Energy exchange in strongly coupled plasmas with electron drift ",Phys. Plasmas, 22, 112111  (2015).

25- M. Ghorbanalilu, S. Sadegzadeh, "Estimate of the maximum induced magnetic field in relativistic shocks", Monthly Notice of the Royal Astronomical Society , 464, 1202–1210 (2017). 

26- M. Ghorbanalilu, S. Sadegzadeh, "A comparative study of the filamentation and two-stream instabilities in weakly relativistic counter-streaming plasmas", Phys. Plasmas, 24, 012109 (2017).

27- M. Ghorbanalilu, Z. Heidari , "Reflected and transmitted second harmonics generation by an obliquely p-polarized laser pulse incident on a vacuum-plasma interface", Waves in Random and Complex Media ,  published online (2017).

28- M. Ghorbanalilu "Third-harmonic generation in optical breakdown of a monatomic gas by an intense laser field", Phys. Plasmas, 24,  063110  (2017).

29- M. Ghorbanalilu, Z. Heidari , "Reflected and transmitted second harmonics generation by an obliquely p-polarized laser pulse incident on a vacuum-magnetized plasma interface", Laser and particle Beams.  Vol. 35,  issue 3, 551-560.  (2017).

30-M. Ghorbanalilu, Elahe Abdollahzadeh, "Extension of temperature anisotropy Weibel instability to non-Maxwellian plasmas by 2D PIC simulation", Laser and particle Beams, Laser and Particle Beams 36, 1–7 , (2018).

31-M. Ghorbanalilu, B. Shokri, "Investigation of optical properties of an overdense magnetized plasma lens in the interaction with high‑intensity Gaussian laser pulses", Applied Physics B  124:38 (2018)

32-M. Ghorbanalilu, N. Nozarnejad, "Direct electron acceleration with a linearly polarized laser beam in a two-dimensional magnetized plasma channel", Laser and Particle Beams 37,  428-434 , (2019).

33- S. N. Razavinia, M. Ghorbanalilu, "Effect of external magnetic field on wakefield generation in underdense plasma slab using backward semi-Lagrangian Vlasov code", Phys. Rev. Accel. Beams. 22, 111305 (2019).

 

 

International workshop and conferences

 

 

1-  Wiebel instability in microwave gas discharges, Qeshme international conference on plasma physics (2002).

2- Wiebel instability in microwave gas discharge with linear  strong pulsed field,   international conference on microwave gas discharges,  Zinowites-Germany (July 2003).

3- Wiebel instability in microwave gas discharge with circularly strong pulsed field, IGPIC (July 2003) Greifswald –Germany.

4- Relativistic effect on the weibel instability on circularly polarized microwave field, ICPP (Oct 2004), Nice-France.

5- Parametric instability in microwave discharge with linear polarization pulsed field, IGPIC (July 2005) Netherlands-Eindhoven.

6-Resonance parametric instability in microwave gas discharges produced by circular polarization fields, IGPIC (July 2005) Netherlands-Eindhoven.

7-  Calculation of dielectric tensor elements in microwave gas discharges with circularly polarization in the presence of a static magnetic field,  ICPP  (June 2006) Kiev-Ukraine.

8- Participated in summer collage of plasma physics, ICTP-Italy -2007.

9-Participated in summer collage of plasma physics, ICTP-Italy -2009.

10-Numerical analyzing of unstable mode propagating along the external magnetic field on magnetized microwave produced plasma.  63 annual gaseous electronic conference, 4-8 October, 2010, Paris, France. 

 

Biography

Personal Data:

 

 Education and Degree

1-1994, B. Sc, from Tabriz University, Tabriz, Iran

2- 1998, M. Sc, from Shahid Beheshti University, Tehran,  Iran. 

3- 2005, PhD in theoretical plasma physics under supervision of Prof. B. Shokri  in Shahid Beheshti University, Tehran, Iran.

PhD Thesis                    Title: “Microwave produced plasma instabilities”    

 

Present position:

Associate Professor in Theoretical Plasma Physics

Scientific Staff in Physics Department-Shahid Beheshti University


 

زیر مجموعه ها

MOHAMMAD GHORBANALILU

Associate Professor in Theoretical Plasma Physics

HEAD OF APPLIED PHYSICS GROUP

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