امروز : چهارشنبه بیست و پنجم مهر 1403
معرفی
مهدی سلیمانی
دوشنبه نوزدهم آذر 1397 ساعت 1:0 ب ظ - توسط : مهدی سلیمانی


 
CURRICULUM VITAE
2021-05-18
  • Contents:
 
  • Personal data
  • Educational background (Degree Date, Institution)
  • Professional Experiences
  • Research interests
  • Publications
  • Reviewer of the journals
  • Teaching Activities
  • Fellowships, Awards and Honors
  • References
 
  • Personal data:
                                        
  • Surname: Solaimani
  • Name: Mehdi
  • Birth date: April-21-1982
  • Sex: Male
  • Marital status: married
  • Full address of the present institution:
Department of Physics, Faculty of Science, Qom University of Technology, Qom, Iran
      Fax: +98-025-36641604
 
  • Educational background (Degree Date, Institution):
 
  • Bachelor of Science: Solid state physics, June 2004, KNT University of Technology, Tehran, Iran, P.O.BOX 16315-1618, Fax: +98-021-22853650
  • Master of Science: Solid state physics, 2007, KNT University of Technology,  Tehran, Iran, P.O.BOX 16315-1618, Fax: +98-021-22853650
           Field of study: Spectral Function of the Nanowire TTF-TCNQ.
           Supervisor: Dr. Edris Faizabadi (IUST, Tehran, Iran)
          Co-Advisor: Dr. Majid Vaeez Zadeh (KNT University of Technology, Tehran, Iran)                 
  • Doctor of Philosophy: Solid state physics, March 2013, Shahrood University, Fax: +98-0273-3325270
         Field of study: Theoretical investigation of Electronic, magnetic and optical   properties of semiconductor nanostructures.
        Supervisors:
               Dr. Morteza IzadiFard (Shahrood university of Technology, Shahrood, Iran)
               Prof. Hadi Arabshahi (Ferdowsi University of Mashhad, Mashahd, Iran)
       Co-Advisor: Prof. Mohammad Reza Sarkardei (Al Zahra University, Tehran, Iran)
 
 
  • Professional Experiences
  • Assistant professor of Physics, Qom University of Technology, 2013-2018.
  • Associate professor of Physics, Qom University of Technology, 2018-Now.
  • Dean of Science Faculty, Qom University of Technology, 2015-2017.
  • Head of Physics Group, Qom University of Technology, 2015-2017.
  • Dean of Science Faculty, Qom University of Technology, 2019-2020.
  • Head of Physics Group, Qom University of Technology, 2019-2020.
  • Education and postgraduate administrator, Qom University of Technology, 2020-Now.
 
  • Research interests
  • Computational methods in nanostructures and condensed matter physics
  • Electronic and optical properties of semiconductor nano-systems
  • Wavepacket and Soliton propagation in multilayered systems and photonic crystals
  • Fractional Schrodinger equation
 
 
  • Publications:
 
  Journals:
 
ISI:
 
  • Hassanabadi, M. Solaimani and H. Rahimov, Rashba coupling in three-electron-quantum dot: A Numerical Solution, Solid State Communications 151 (2011) 1962.
  • Majid Hamzavi, Sameer M. Ikhdair and Solaimani, A Semirelativistic Treatment of Spinless Particles Subject to The Yukawa Potential with Arbitrary Angular Momenta, International Journal of Modern Physics E 21 (2012) 1250016.
  • Hassanabadi, B. H. Yazarloo, S. Zarrinkamar, and M. Solaimani, Approximate Analytical Versus Numerical Solutions of Schrodinger Equation Under Molecular Hua Potential, International Journal of Quantum Chemistry, 112 (2012)3706.
  • Solaimani; M. Izadifard; H. Arabshahi; M. R. Sarkardei, Challenges in Application of a Monte Carlo Method to study an Exciton Confined in AlGaAs/GaAs Single Quantum Well, International Journal of Modern Physics B, 26, No. 23 (2012) 1250129.
  • Solaimani; M. Izadifard; H. Arabshahi; M. R. Sarkardei, “Study of optical non-linear properties of a constant total effective length multiple quantum wells system” Journal of Luminescence 134 (2013) 699.
  • Solaimani; M. Izadifard; H. Arabshahi; M. R. Sarkardei, “Effect of the magnetic field on optical properties of GaN/AlN multiple quantum wells”, Journal of Luminescence 134 (2013) 88.
  • Solaimani; M. Izadifard; H. Arabshahi; M. R. Sarkardei, Magnetic Field Dependence Optical Properties of GaN/AlN Multiple Quantum Wells, Optik, Optik  124 (2013) 3194.
  • Solaimani; M. Izadifard, Physical Characteristics of an Exciton Confined in a GaAs/AlGaAs Single Quantum well structure, Optoelect. And Adv. Mater.-Rapid Communications, 8 (2014) 329.
  • Solaimani, Refractive index changes in constant total effective length GaN/AlN multiple quantum well systems under external electric field, International Journal of Modern Physics B, 28 (2014) 1450204.
  • Hassanababdi, M. Ghominejad, B. H. Yazarloo, M. Solaimani, and H. Hassanabadi, Approximate Solution of Scattering States of the Spinless Salpeter Equation with the Yukawa Potential, Chinese J. Phys., 25(2014)1205.
  • Solaimani, Nonlinear optical properties of GaN/AlN constant total effective radius multi-wells quantum rings, Mod. Phys. Lett. B, 28, No. 27 (2014) 1450214.
  • Solaimani, GaN/AlN constant total effective radius multi-wells quantum rings: Physical properties under well number variation effects, Solid State Commun. 200 (2014) 66.
  • Solaimani, Nonlinear optical absorption of a two electron GaN/AlN constant total effective radius multi-shells quantum rings, Journal of Nonlinear Optical Physics & Materials, 23(2014)1450049.
  • Solaimani, Leila  Lavaei, Mahboubeh  Ghalandari, Intersubband Optical Properties of a Two Electron GaN/AlN Constant Total Effective Radius Multi-Shells Quantum Rings, Superlattices and Microstructures, 82 (2015)1.
  • Solaimani, A. Latifi, Optical properties of GaN/AlN constant total effective radius multi-wells quantum rings, Opt Quant Electron, 47 (2015)1901.
  • Solaimani, Effect of Electric Field on Optical Properties of GaN/AlN Constant Total Effective Length Multiple Quantum Well systems, Optik, 126 (2015) 4372.
  • Solaimani, Miniband Formation in GaN/AlN Constant-Total-Effective-Radius Multi-shell Quantum Dots, CHIN. PHYS. LETT. Vol. 32, No. 11 (2015) 117304
  • C. Onyeaju, J. O. A. Idiodi, A. N. Ikot, M. Solaimani, H. Hassanabadi, Linear and Nonlinear Optical Properties in Spherical Quantum Dots: Generalized Hulthén Potential, Few-Body Syst 57 (2016)793.
  • Solaimani, Ghalandari, Mahboubeh, Lavaei, Leila, Donor impurity effects on optical properties of GaN/AlN constant total effective radius multishell quantum dot, Journal of the Optical Society of America B 420 (2016)420.
  • Solaimani, Optical absorption coefficint of GaN/AlN multi-shells quantum dots:Optical intensity and magnetic field effects, Optik 127 (2016) 3934.
  • Solaimani, Magnetic field effects on linear optical properties of GaN/AlN multi-wells quantum rings and dots with constant total effective radiuses, Opt Quant Electron 48 (2016)161.
  • Ghalandari Mahboubeh, Solaimani, Spatial soliton propagation through waveguides: rectangular and parabolic rectangular index profile, Opt Quant Electron 48 (2016)514.
  • Solaimani, B. Babayar Razlighi, Behavior of Donor Impurity Binding Energy Confined In a GaAs Constant Total Effective Radius Multi-Shell Quantum Dots: Dielectric Mismatch Effects, Iran J Sci Technol Trans Sci 41 (2017)1075.
  • M Solaimani, L Lavaei, SMA Aleomraninejad, Optical rectification coefficients of cylindrical quantum dots: Rashba spin-orbit interaction effects, Journal of the Optical Society of America B 34, (2017) 1989.
  • Vatan, B. Farnam, M. Solaimani∗, S.M.A. Aleomraninejad, Transport properties of a traveling wave packet through rectangular quantum wells and barriers, Optik 136 (2017) 281.
  • Z. Seyed Shirazi, M. Solaimani, B. Farnam, M. Ghalandari, S.M.A.Aleomraninejad, Spatial soliton propagation through a triangular waveguide:A Runge Kutta study, Optik 129 (2017) 200.
  • Amini, M. Soleimani, M.H. Ehsani, Electronic and optical properties of GaAs/AlGaAs Fibonacci ordered multiple quantum well systems, Superlattices and Microstructures 112 (2017) 680.
  • M. Solaimani, Seyed Mohammad Ali Aleomraninejad, Leila Lavaei, Optical rectification in quantum wells within different confinement and nonlinearity regimes, Superlattices and Microstructures 111 (2017) 556.
  • M Solaimani, Guo-Hua Sun, and Shi-Hai Dong, Shannon information entropies for rectangular multiple quantum well systems with constant total lengths, Phys. B Vol. 27, No. 4 (2018) 040301.
  • Solaimani_ and Leila Lavaei, Control of optical absorption nonlinearity in multi-layers quantum dots and rings, International Journal of Modern Physics B 32, (2018) 1850007.
  • Solaimani, Intersubband optical properties of three electrons confined in multishell quantum dots: comparison of two semiconducting compounds, Journal of Computational Electronics 17 (2018)1135.
  • Solaimani, Magnetic field effects on electronic properties of multi-wells quantum rings and dots with an on-center donor impurity, Optoelectronics and Advanced Materials, Rapid Communications 12, (2018)595.
  • Solaimani, Seyed Mohammad Ali Aleomraninejad, Leila Lavaei, Optical properties of parabolic quantum wires in the presence of electron-electron interactions: An Euler-Lagrange variational application, Optik, 172 (2018) 353.
  • Mehdi Solaimani, Mahboubeh Ghalandari, Leila Lavaei, Competition of parabolic and periodic sinusoidal potential in the propagation of a soliton, Optik 155 (2018) 185.
  • Solaimani, Electronic properties of a quantum ring perturbed with a quantum well in the presence of perpendicular magnetic flux, Optical and Quantum Electronics 50 (2018)283.
  • Solaimani, Mehrzad Ghorbani, A meshless method of line radial base function study of Gaussian wave packet broadening in few semiconducting mediums: electron–electron interaction effects, Optical and Quantum Electronics 50 (2018)399.
  • Solaimani, B. Farnam, M. Ghalandari, S. Z. SeyedShirazi, Wave localization in two dimensional parabolic periodic refractive index profiles: a 4th order Runge–Kutta study, Opt Quant Electron 50 (2018)114.
  • Alireza Mobini, Solaimani, A quantum rings based on multiple quantum wells for 1.2–2.8 THz detection, Physica E: Low-dimensional Systems and Nanostructures 101 (2018) 162.
  • S M A Aleomraninejad, M Solaimani, M Mohsenyzadeh and L Lavaei, Discretized Euler–Lagrange variational study of nonlinear optical rectification coefficients, Phys. Scr. 93 (2018) 095803.
  • Mehrzad Ghorbani and Solaimani, Wave packet broadening through different semiconducting mediums: A meshless multi-quadric radial base function study, International Journal of Modern Physics B, 32 (2018) 1850361.
  • M Solaimani Mehrzad Ghorbani, S. M. A. Aleomraninejad, Optical Properties of Energy-Dependent Effective Mass GaAs/ GaxIn1xAs and GaAs/AlxGa1xAs Quantum Well Systems: A Shooting Method Study, Journal of electronic materials, 48 (2019) 942.
  • Solaimani, M. Izadifard, Miniband formation engineering in GaN/AlN superlattices with constant total effective length, Optical and Quantum Electronics 51(2019) 346.
  • Sabzvar, M.H. Ehsani, M. Soleimani, Mehrzad Ghorbani, Optical properties of a few semiconducting heterostructures in the presence of Rashba spin-orbit interactions: a two-dimensional finite-difference numerical approach, Journal of the Optical Society of America B 36 (2019) 1774.
  • Gahfari, A. Mobini, M. Solaimani, Nano-scale planar photodetector based on ring form MQWs for FIR regime, Journal of the Optical Society of America B 36 (2019) 897.
  • Farnam, M. Solaimani, S. M. A. Aleomraninejad, Effect of electron–electron interactions on optical properties of GaN/AlN quantum wells: a nonlinear Schrِdinger equation approach, Optical and Quantum Electronics 51 (2019) 218.
  • Mahboubeh Ghalandari, Solaimani, Wave transport in fractional Schrodinger equations, Optical and Quantum Electronics 51 (2019) 303.
  • Mahboubeh Ghalandari, Amin Ghadi, Mehdi Solaimani, Saeed Mirzanejhad, Saturation and refractive index geometry effects on localization of a spatial soliton in a waveguide with parabolic rectangular index profile, Journal of electronic materials, 48 (2019) 579.
  • Solaimani, D. Haji Taghi Tehrani, Effects of Close Packing and Electric Fields on Optical Properties of the Three Dimensionally Stacked Quantum Dots, journal of computational electronics, 19 (2020)160.
  • M. Solaimani, Shi-Hai Dong, Quantum Information Entropies of Multiple Quantum Well Systems in Fractional Schrödinger Equations, International Journal of Quantum Chemistry, 120, e26113 (2020).
  • M Solaimani, and Alireza Mobini, Investigation on Rashba spin–orbit interactions in two dimension quantum array for thermal imaging applications, J. Opt. 22 (2020) 085001.
  • Solaimani, Optical rectification coefficient of GaAs/AlxGa1−xAs Thue–Morse multiple quantum wells, Eur. Phys. J. Plus 135 (2020) 455.
  • Solaimani, Hoda Moghadam, Effects of interdiffusion and electric field on the optical rectification coefficient of GaAs/AlwGa1−wAs systems: crossover from single to multiple quantum wells, Applied Physics A 126 (2020) 278.
  • Solaimani , and Davood Haji Taghi Tehrani, Light  bsorption in semiconducting quantum dot clusters with fixed surface areas in an external tilted magnetic field, AIP Advances 10 (2020) 085306.
  • Sabzevar, M Solaimani, M. H. Ehsani, D. Hagi Taghi Tehrani, The effect of vacancy-defects on the magnetic properties of Ising fullerenelike nano-structures: A Monte Carlo study, Journal of Magnetism and Magnetic Materials 502 (2020) 166573.
  • Solaimani, Superarrival and spin polarization of spin-dependent wave-packets propagating through one-dimensional rectangular and inverse parabolic barriers: Rashba spin-orbit interaction and nonlinearity effects, Journal of Magnetism and Magnetic Materials 513 (2020) 167247.
  • M. Solaimani Nontrivial wave-packet collision and broadening in fractional Schrodinger equation Formalism, Journal of Modern Optics, 67 (2020) 1128.
  • Solaimani, A. Rasouli Kenari, A nonparabolic conduction band study of circular quantum dot optical properties: modeling of surface roughness by using Koch snowflakes, J Nanopart Res 22 (2020)242.
  • Solaimani, Binding energy and diamagnetic susceptibility of donor impurities in quantum dots with different geometries and potentials, Materials Science & Engineering B 262 (2020) 114694.
  • Rasouli Kenari, M. Solaimani, Optical properties of two dimensional fractal shaped nanostructures: Comparison of Sierpinski triangles and Sierpinski carpets, Optics Communications 474 (2020) 126185.
  • Solaimani, M. Ghalandari, A. Aghajamali, Band gap engineering in constant total length nonmagnetized plasma-dielectric multilayers, Optik 207 (2020) 164476.
  • Nayak, A. Aghajamali, M. Solaimani, J. K. Rakshit, D Panigrahy, K. V.P. Kumar, B. Ramakrishna, Dodecanacci superconductor-metamaterial photonic quasicrystal, Optik 222 (2020) 165290.
  • R.Niknam, M.Ghorbani, M.Solaimani, Analysis of filamentation instability in a current-carrying plasma using meshless method of lines coupled with radial basis functions, Physics Letters A 384 (2020) 126839.
  • Solaimani, Optical transport properties of one dimensional plasma photonic crystals: Crossover from rectangular to semi-sinusoidal layers, Results in Physics 16 (2020) 102843.
  • Solaimani, Stark shift of binding energy for on and off-center donor impurities in quantum rings under the influence of charged rods electric fields, Solid State Sciences 108 (2020) 106386.
  • Ghalandari & M. Solaimani, Fractional Young doubleslit numerical experiment with Gaussian wavepackets, Sci. Rep. 10 (2020) 19458.
  • Solaimani, Effects of geometry and electric and magnetic fields on the thermal properties of two-dimensional semiconducting nanoporous superlattices, Journal of Physics and Chemistry of Solids 149 (2021) 109816.
  • Máthé, C. P. Onyenegecha, A. A.Farcas L. M. Piora¸Timbolma, M. Solaimani, H. Hassanabadi, Linear and nonlinear optical properties in spherical quantum dots: Inversely quadratic Hellmann potential, Phys. Lett. A 397, (2021) 127262.
  • Solaimani, S. M. A. Aleomraninejad, "A hyper-block self-consistent approach to nonlinear Schrodinger equations: Breeding, metamorphosis, and killing of Hofstadter Butterflies", Commun Nonlinear Sci Numer Simulat 97 (2021) 105724.
  • Solaimani, M. Ghalandari, and M. Nejati, Optical filters based on fixed length Thue-Morse plasma-dielectric photonic band multilayers: Comparing two, three, and four materials systems, AIP Advances 11 (2021) 025309.
 
Non-ISI:
 
  • Faizabadi, Edris; Soleimani, New formalism in evaluation of the ground and few excited states of Hubbard chain nanostructures, Proc. SPIE 6831, (2007) 68311K.
  • Solaimani, M. Izadifard, H. Arabshahi, M. R. Sarkardehi and M. Salmani, Genetic algorithm based diamagnetic shift investigations of the GaAs0.7Sb0.3/GaAs and Al0.3Ga0.7As quantum wells, Journal of Engineering and Technology Research 2 (2010) 245.
  • Solaimani, M. Izadifard, H. Arabshahi, M. R. Sarkardehi and M. Salmani, Some new aspect of the application of Genetic algorithm to investigate nanostructures, Journal of Engineering and Technology Research 2. (2010)245.
  • Solaimani, M. Izadifard, H. Arabshahi, M. R. Sarkardehi, A new approach based on genetic algorithm in Schrödinger equation solution for nanostructure applications: the effect of some genetic and Monte Carlo operators, International Journal of the Physical Sciences Vol. 6 (2011) 5364.
  • Solaimani; M. Izadifard; H. Arabshahi; M. R. Sarkardei , “Monitoring of the genetic algorithm operators in application to the GaAs0.7Sb0.3/GaAs single quantum well nanostructure “, International Journal of Physical Sciences Vol. 7(2012) 5485.
  • Solaimani; M. Izadifard;H. Arabshahi; M. R. Sarkardei, Two dimensional Coulomb potential of Confined Excitons in Quantum Well Structures, J. Nano- And Electronic Phys., 4 (2012)04012.
  • Solaimani; M. Izadifard, Electronic and Optical Properties of GaN/AlN Multiple Quantum Wells under Static External Magnetic Field, J. Nano- And Electronic Phys., 5 (2013) 03023.
  • Solaimani, Osscilating Binding Energy of a Donor Impurity Confined within CdS-SiO2 Constant Total Effective Radius Multi-Shells Quantum Dots, International Journal of Nanoscience,15, (2016) 1650003.
  • Solaimani, Number of Repetitious States in One Dimensional Hubbard Model: a Density Matrix Renormalization Group Perspective, J. Nano- And Electronic Phys. 7 (4pp) (2015) 04101.
  • Niknam, A. A. Rajabi, M. Solaimani, Solutions of D-imensional Schrodinger Equation for Woods–Saxon Potential with Spin-Orbit, Coulomb and Centrifugal Terms through a New Hybrid Numerical Fitting Nikiforov–Uvarov Method, Journal of Theoretical and Applied Physics, 10 (2016):53.
  • C. Onyeaju, J. O. A. Idiodi, A. N. Ikot, M. Solaimani, H. Hassanabadi, Linear and nonlinear optical properties in spherical quantum dots: Manning-Rosen potential, J Opt 46 (2017) 254.
  • سید محمد علی آل عمرانی نژاد، مهدي سلیمانی، رهیافت حدس جهت محاسبۀ انرژي حالت پایۀ معادلات شرودینگر غیر خطی در فیزیک بس ذرهاي، مجلۀ پژوهش سیستمهاي بس ذرهاي، دورة 8، شمارة 16 ، بهار 13 صفحه 71
  • خديجه نوروزي، سيد محمد علي آل عمراني نژاد، مهدي سليماني، بهناز فرنام، محاسبه ترازهاي انرژي معادلات شرودينگر خطي به روش سينک، سال سوم، شماره يازدهم، پاييز ۱۳96، صفحه 81
  • Solaimani, Thermodynamic Properties of a Quantum Ring Perturbed with Quantum Wells and Impurities, J. Nano- And Electronic Phys. 10, 06006 (2018).
  • M. A. Aleomraninejad, M. Solaimani, Numerical solution of some non-linear eigenvalue differential equations by finite difference-self consistent field method, Mathematical Analysis & Convex Optimization 1 (2020) 57.
  • Solaimani and H. Johari, Miniband formation engineering in GaN/AlN constant total effective radius multi-shells quantum dots and rings with on-center hydrogenic donor impurities, Journal of Interfaces, Thin films, and Low dimensional systems 2 (2019) 203.
  • مهدی سلیمانی، محسن سلمانی، انتشار موج صوتی در ساختارهای تئو- مورس چندلایهای شامل دو، سه و چهار  ماده مس، آلومینیم، اکسید منیزیم و سرب، مجله انجمن مهندسی صوتیات ایران، 7(1398) صفحه 18.
  • Solaimani, Simultaneous effects of optical intensity and magnetic field on optical properties of GaN/AlN multi-wells quantum rings with constant outer radius, Journal of Interfaces, Thin films, and Low dimensional systems 3 (2019) 233-243.
  • Babayar-Razlighi, M. Solaimani, Legendre Wavelets Technique for Special Initial-Value Heat Transfer Problem in the Quarter Plane, Mathematics and Computational Sciences 1 (2020) 1-8.
 
  Conferences
 
  • Faizabadi , M. Soleimani, Evaluation of The Spectral Function For The Chain Nanostructures TTF-TCNQ , IEEE conference(2006)
  • Faizabadi, Edris; Soleimani; Khayatzadeh, Mohammad Reza, A New Efficient Method in Calculation of the Ground State of Hubbard Chain Nanostructures, Spectroscopy and material properties, Volume, Issue, 18-22 Sept. 2006 Page(s):460 - 460(IEEE proceeding).
  • Faizabadi, M. R. Khayatzadeh, M. Soleimani, Indium Impurity Effects on Optical Gap in Disorder Nanolayer InxGa (1-x) As in the Presence of Spin-Orbit Interaction, 8th, International conference of photonics, Des 13-16, 2006 (Hyderabad - India).
  • Faizabadi, M. R. Khayatzadeh, M. Soleimani, Spin Polarization Investigation in Disordered Structure InxGa (1-x) As in The Presence of Spin- Orbit Interaction, 11th Annual Iranian physics conference, Aug 28-31, 2006 (Shahrud-Iran)
  • Faizabadi, Edris; Soleimani; Khayatzadeh, Mohammad Reza, Calculation of the Spectral Function of a One Dimensional System by means of a New Recursive Method in the Hubbard Model, the Second Nanotechnology Student Conference, Sep 5-7, 2007(Kashan-Iran)
  • Faizabadi, Edris; Khayatzadeh Mahani, Mohammad Reza; Soleimani, Spin Filtering Effect, Dresselhaus Spin Orbit Coupling Effect on Electron Tunneling through Disordered Superlattice with Zinc-blende Structure, 12th Annual Iranian physics conference, Aug. 27-30, 2007 (Yasuj-Iran).
  • Faizabadi, Edris; Khayatzadeh Mahani, Mohammad Reza; Soleimani, The Influence of the Dresselhaus Spin Orbit Coupling on Spin Polarization by Tunneling through Disorder Semiconductor Superlattice, 2nd international conference on nanostructures, March. 11-14, 2008 (Kish-Iran).
  • Izadifard, Morteza; Sarkardehi Mohammad Reza; Solaimani, A new hybrid method consisting of Genetic algorithm to investigate magnetic properties of nanostructures, Annual Iranian physics conference, sep. 11-14 2010 (Hamedan-Iran).
  • Solaimani, Mehdi; Izadifard, Morteza; H. Arabshahi; Sarkardehi Mohammad Reza , Variable and Uniform mesh Finite Difference Schema for the investigation of an exciton confined in a GaAsSb/GaAs quantum well with weak type I Conduction band, 17th Annual IASBS Meeting on Condensed Matter Physics, May 26-27, 2011(Zanjan-Iran)
  • Solaimani, Mehdi; Izadifard, Morteza; H. Arabshahi; Sarkardehi Mohammad Reza , Calculation of Confined Exciton Binding Energy in GaAsSb/GaAs Single Quantum Well by a New Modified Genetic Algorithm, Annual Iranian physics conference, sep. 7-10, 2012 (Yazd-Iran).
  • Ariani Mohammadiye, Hassan; Ghazi, Mohammad Ebrahim; Izadifard, Morteza; Mehdi Solaimani, Study of NdMnO3 manganite by LSDA and LSDA+U approximations, Annual Iranian physics conference, sep. 7-10, 2012 (Yazd-Iran).
  • Soleimani, Mehdi;Izadifard, Morteza, Investigation of the temperature effect on spin polarization of a two dimensional electron gas confined within Al0.3Ga0.7As multiple quantum well systems, 11th condensed matter physics conference of Iran, 2013 (shahrood-Iran).
  • Doustmohammadi, Mahsa; Masoudi, Amir ali; Solaimani, Mehdi, A reaction diffusion model for the growth of tumor, 11th condensed matter physics conference of Iran, 2013 (shahrood-Iran).
  • Babayar-Razlighi, M.solaimani, Product integration method for numerical solution of a heat conduction problem, 46th Annual Iranian Mathematics Conference, 2015 (yazd, iran).
  • Solaimani, Mehdi, Aleomraninejad, Seyed Mohammad Ali, Study of a Superlattice Nanowire with a Soft Polar Molecular Layer, Conference on Many Body Systems (Bulk and Nano-Scale), November 12, 2015 (Tehran-Iran).
  • Z. Seyedshirazi , B. Farnam, M. Solaimani, S.M.A. Aleomraninejad, A numerical technique for the solution of non-linear Heat equation by using Rung-Kutta, The 6th Seminar on Numerical Analysis and Its Applications, 20-21 July 2016 (maraghe, Iran).
  • Vatan, B. Farnam, M. Solaimani, S.M.A. Aleomraninejad, Quantum Transport by Means of Split-Step Finite Difference Method for Nonlinear Schrödinger Equations, The 6th Seminar on Numerical Analysis and Its Applications, 20-21 July 2016 (maraghe, Iran).
  • Mobini, Alireza, Soleimani, Mahdi, Calculation of Dielectric Function of Quantum Dot in the Strong Confinement Regime, Iranian Conference on Mathematical Physics, 3 November 2016(Qom, Iran).
  • SeyedShirazi, Seyedeh Zeinab; Farnam, Behnaz; Solaimani, Mehdi; Aleomraninejad, Seyed Mohammad Ali, Numerical solution of Nonlinear Schrödinger equation with time dependent parameters through 4th order Rung-Kutta method, Iranian Conference on Mathematical Physics, 3 November 2016(Qom, Iran).
  • Vatan, Masoumeh; Farnam, Behnaz; Solaimani, Mehdi; Aleomraninejad, Seyed Mohammad Ali, Quantum transport through a quantum barrier by solving the nonlinear Schrödinger equation by means of split step finite difference method, 3 November 2016(Qom, Iran).
  • Mahdi Soleymani, Alireza Mobini, Study of Optical Properties of Quantum Ring Based on MQW Using Tight-Binding Method, 23th Iranian Conference on Optics and Photonics, January 31-february 2, 2017(Tehran, Iran).
  • Farnam,Behnaz, Solaimani,Mehdi, Aleomrani Nejad, Seyed Mohammad Ali, Kazemizade,Shahin, Nikiforov- Uvarov method to solve one dimensional linear Schrodinger Equation, Iranian Conference on Mathematical Physics, 28-december 2017(Qom-Iran).
  • Behnaz Farnam, Zahra Habibollahi, Mehdi Solaimani, Seyed Mohammad Ali Aleomraninejad, Finite difference self-consistent method to solve one dimensional non-linear Schroedinger equation, The 23th seminar on mathematical analysis and applications, 23-24 aban 1379 (Arak, Iran).
  • Mahboubeh Ghalandari, Mehdi Solaimani, Amin Ghadi, Investigation of the localization properties of a soliton in a waveguide with parabolic rectangular refractive index profile, 7th conference on plasma physics and engineering, 26-27 tir, 1398(Shahrood-Iran).
  • Solaimani, M. Ghalandari, Solitonic waves propagation through multi-layer semi-Gaussian waveguides, 4th conference of Iranian computational physics, 17 Bahman 1398(Tehran-Iran).
  • Karami, B. Farnam, M. Ghorbani, M. Soleamani, The Numerial Sotution of 2D Time-Independent Schrodinger Equation by finite differences and Arnoldi methods, 4th conference of Iranian computational physics, 17 Bahman 1398 (Tehran-Iran).
  • Zakeri, L. Lavaei, M. Soleimani, S. A. A. Terohid, Investigation of wave packet propagation in the fractional, conventional and nonlinear quantum mechanics formalism, 26th conference on optics and photonics, 15-16 Bahman 1398(Tehran-Iran).
  • Zakeri, L. Lavaei, M. Soleimani, S. A. A. Terohid, The spreading of Dirac delta wave packet in fractional quantum medium, 4th Iranian Conference on Mathematical Physics, 12 Dey 1398 (Qom-Iran).
  • Ghalandari, M. Solaimani, A. Aghajamali, Wave Propagation through one-dimensional Plasma Photonic Crystals with Fixed Total Length: Studying the Frequency Gap Variations, 15th physics society of Iran conference on condensed matter physics, 7-8 Bahman 1399 (Qom-Iran).
  • Solaimani, M. Ghalandari, wavepackets in nonlinear fractional Schrodinger equations with rectangular potential, 15th physics society of Iran conference on condensed matter physics, 7-8 Bahman 1399 (Qom-Iran).
  • Solaimani, M. Ghalandari, D. Haji Taghi Tehrani, Variational method for spatial solitons in nonlinear fractional Schrödinger equation with parabolic potential, 15th Iranian Conference on Mathematical Physics, 8-10 Dey 1399 (Qom-Iran).
  • Ghalandari, D. Haji Taghi Tehrani, M. Solaimani, Band structure of multiple quantum wells using the fractional time independent Schrodinger equation, 15th Iranian Conference on Mathematical Physics, 8-10 Dey 1399 (Qom-Iran).
  • Jourabchi, M. Bekrani, M Soleimani, Integrated enhancement of the absorption spectrum of the optical structure of magnetic absorbent based on molybdenum disulfide using physical geometry change, 5th Conference on Electrical and Computer Engineering Technology, (Tehran, Iran).
  • Haji Taghi Tehrani, M. Solaimani and M. Ghalandari, Investigation of saturation effect on the solitons behavior using variational method of fractional Schrödinger equation, 27th Iranian Conference on Optics and Photonics, 14-16 Bahman 1399(Tehran, Iran).
  • Ghalandari, M. Nejati, M. Solaimani, Investigation of frequency gapsof one-dimensional Thue-Morse plasma photonic crystals, 27th Iranian Conference on Optics and Photonics, 14-16 Bahman 1399 (Tehran, Iran).
Research Projects
 
  • Mehdi solaimani, Optical properties investigation of the quantum dot superlattice photonic crystals with numerical methods for possible applications in optoelectronic devices, Qom University of Technology, September 2015.
  • Mehdi solaimani, Optical properties of multi-shell semiconducting quantum dots, Iran National Science Foundation, March, 2018
 
  1. Sc. Students
 
  • Seyedeh zeinab seyedshirazi, Numerical solution of a one-dimensional schrödinger equation by Rung-Kutta method, Master Thesis, October 2016, Second Supervisor.
  • Masoumeh Vatan, Numerical Solution of a one-dimensional Schrödinger Equation by Finite-Difference Split-Step Method, Master Thesis, september 2016, Second Supervisor.
  • Mustapha Amini, Study of electron transfer from the one-dimensional nano-structures with fractal arrangement of the transfer matrix method, Master Thesis, September 2017, Second Supervisor.
  • Shahin Kazemizade, Solving Time Independent Schrödinger Equations By Using N.U and Curve Fitting, Master Thesis, September 2017, First Co-Supervisor.
  • Khadije Norouzi, Finding the energy levels of the Schrödinger linear equation by Sinc functions, Master Thesis, February 2017, First Co-Supervisor.
  • Hadiseh Amin, Use of gradient methods to solve the problems of minimizing physics, Master Thesis, January 2018, Co-Supervisor.
  • Zahra Habibollahi, Solve the time-independent non-linear Schrödinger equation by combining finite difference and self-consistent methods, Master Thesis, January 2018, Second Supervisor.
  • Soosan Ghafari, Design and Analysis of Ring Form Multiple Quantum Well Infrared Photodetectors, Master Thesis, April 2018, Co-Supervisor.
  • Zahra Pillbala, using orthogonal sinusoidal basis functions to solve the multidimensional time dependent Schrodinger equation, 1397, Second Supervisor.
  • Maryam Aalaei,
  • Hoda Moghadam, Solving the Schrodinger Equation Using a Finite Element Method, 2018, Second Supervisor.
  • Mahnaz Naderikia, solution of Schrodinger equation by homotopy perturbation method investigate the localization of a wave packet, 2019, Second Supervisor.
  • Nasrin Fazeli, Solving Schrodinger Equation by Shooting Method, 1398, Second Supervisor.
  • Jourabchi, Absorbers based on MoS2 and grapheme, 1399, Co-Supervisor.
  • Marziye Falahaty Fard, On structure preserving and circulant preconditioners for the space fractional coupled nonlinear Schrodinger equations, 2021, Second Supervisor.
  • Atefeh Shaabanian, solving second-order eigenvalue Schrodinger equation by the Sinc-Galerkin method, 2020, Co-Supervisor.
 
 
Reviewer of the Journals:
 
  • Nature: Scientific Reports
  • IOP: Journal of physics A
  • IOP: Physica Scripta
  • OSA: Optics Express
  • John Wiley & Sons: International Journal of Quantum Chemistry
  • Taylor and Francis: Materials Research Innovations,
  • Elsevier: Physica E
  • Elsevier: Optik
  • Springer: open physics
  • Springer: Optical and Quantum Electronics
  • World Scientific: International Journal of Nanoscience,
  • Indian Journal of pure and applied physics
  • Journal of Optoelectronic and Advanced Materials
  • Journal of Interfaces, Thin films, and Low dimensional systems
  • پژوهش های نوین فیزیک
 
  • Teaching Activities:
 
  • Qom University of Technology:
 
  • Solid state physics I& II
  • Semiconductor devices
  • Computer II (numerical analysis, numerical integration, numerical differentiation,… )
  • Statistical physics
  • Fundamental Physics I & II
  • Fundamental Physics Lab I& II
 
  • Semnan University:
 
  • Computer application in physics (Monte Carlo simulation, Molecular Dynamics simulation, Numerical solution methods for single particle Schrödinger equation, each in one semester)
  • Electromagnetic environments (textbook: F. Wooten, Optical properties of solids),
  • Fundamental Physics I && II
  • General Physics Lab I
 
  • Shahrood University of Technology:
 
  • General Physics Lab I, Fundumental physics I and II, General physics.
 
  • Payam Noor University of Damghan:
 
  • Computer application in physics(Monte Carlo simulation), Mathematical physics I & II(Jorge arfken), modern physics, general physics II, Special Relativity, (textbook: Robert Resnik), Statistical Mechanic,(textbook: Payam Noor book series), Quantum Physics I&& II,(textbook: Gasiorowicz ), Analytical classical mechanic,(textbook: Grant R. Fowles), Solid state physics I and II (Kittle).
 
  • Islamic Azad University of Damghan:
 
  • Basics of computer (ICDL), High school mathematic, Fundamental Physics I ,(textbook: David Halliday & Robert Resnik , 1st vol), Fundamental Physics II,(textbook: David Halliday & Robert Resnik , 3rd vol), General physics,(textbook: Arbitrary), High school physics,(textbook: Arbitrary), General Physics Lab (I & II)
 
  • Islamic Azad University of Semnan:
 
  • Physics of electricity and magnetism
 
 
  • Fellowships, Awards and Honors:
 
  • 700th rank, Nationwide entrance exam for state universities for free educations of bachelor of science(among 48000 candidates), 2000
  • 200th rank, Nationwide entrance exam for state universities for free educations of master of science in physics (among 9000 candidates), 2004
  • 1st student researcher in solid state physics, Shahrood University, 2013.
  • 1st researcher in solid state physics department, Qom University of Technology, 2014.
  • 1st researcher in faculty of basic science, Qom University of Technology, 2015.
  • 1st researcher in basic science faculties, Qom province, 2016.
  • 1st researcher in faculty of basic science, Qom University of Technology, 2018.
 
  • References:
 
  • A.R. Niknam; Associated Professor of Laser and Plasma Research Institute of Shahid Beheshti University, Tehran, Iran
 
  • Prof. Hassan Hassanabadi, Associated Professor of Physics Department, Faculty of Physics, Shahrood University of technology, Shahrood, Iran. Email : hassanabadi@shahrootut.ac.ir
 
  • Dr Morteza Izadifard, Assistant Professor of Physics Department, Faculty of Physics, Shahrood University of technology, Shahrood, Iran. Email : mizadifard@shahrootut.ac.ir
 
  • M.R. Sarkardei; Associated Professor of Physics Department,
      Faculty of Physics, Al Zahra University, Tehran, Iran,                                                   Email: mrsarkardei@yahoo.com
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