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دانشگاه محل فارغ التحصیلی: صنعتی شریف

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دکتری-دانشگاه صنعتی شریف-برق-مخابرات (میدان و امواج)

کارشناسی ارشد-دانشگاه صنعتی شریف-برق مخابرات (میدان و امواج)

کارشناسی- دانشگاه علم و صنعت ایران- برق مخابرات

محورهای تحقیقاتی:

  1. حل عددی و تحلیلی ساختارهای متامتریال (فرامواد)
  2. ساختارهای گرافنی
  3. طراحی ادوات پلاسمونیک
  4. سنسورهای ضریب شکست
  • افتخارات:
    – پژوهشگر برتر بخش مهندسي برق سال ٩٧
    – پژوهشگر برتر بخش مهندسي برق سال ٩٨
    – نفر دوم برتر آموزشي دانشگاه در سال ٩٩- ١٤٠٠

سوابق اجرائی:
– مدیر گروه بخش مهندسی برق
– مدیر دفتر نظارت و ارزیابی و تضمین کیفیت، سرپرست دبیرخانه جذب دانشگاه

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زمینه های تدریس

کارشناسی

    • ریاضیات مهندسی
    • مدارهای الکترونیکی
    • سیستم های کنترل خطی
    • الکترونیک 1
    • الکترونیک 2
    • مدارهای الکتریکی 1
    • فیزیک الکترونیک
    • مکانیک الکترونیک
    • میدان و امواج
    • مبانی مهندسی برق 1
    • مدار الکتریکی 2
    • پروژه کارشناسی
    • کارآموزی
    • الکترونیک آنالوگ
    • الکترونیک 3
    • مدارهای الکتریکی 2
    • مدار الکتریکی
    • الکترونیک کاربردی
    • آز الکترونیک
    • مدارهای الکتریکی
    • الکترونیک دیجیتال

 

طرح درس
مقالات

مقالات مجله

  • S. Barzegar-Parizi, “Refractive index sensor with dual sensing bands based on array of Jerusalem cross cavities to detect the hemoglobin concentrations,” Optical and Quantum Electronics, 2022
  •  S Barzegar-Parizi, “Design of a Miniaturized Narrow-Band Absorber Based on Metallic Metamaterial at Terahertz Frequency (In Persian), Scientific Journal of Applied Electromagnetics 10 (1), 2022
  • S. Barzegar-Parizi, and A. Ebrahimi, “Terahertz high-Q absorber based on holes array perforated into a metallic slab”, Electronics 10 (15), 1860, 2021
  •  S. Barzegar-Parizi, A. Ebrahimi and K. Ghorbani, “Dual-broadband and single ultrawideband absorbers from the terahertz to infrared regime”, Journal of the Optical Society of America B 38 (9), 2628-2 637, 2021
  • S. Barzegar-Parizi, and A. Ebrahimi, “Dual-band high impedance surface with graphene basedmetasurfaces”, Physics Letter A 384 (31), 126813, 2020
  •  S. Barzegar-Parizi, and A. Ebrahimi, “Ultrathin, polarization-insensitive multi-Band absorbers based on graphene metasurface with THz sensing application”, Journal of the Optical Society of America B 37 (8), 2372-2381, 2020
  • S. Barzegar-Parizi, A. Ebrahimi, and K. Ghorbani, “High-Q dual-band graphene absorbers by selective excitation of graphene plasmon polaritons: circuit model analysis”, Optics and Laser Technology 132, 106483, 2020
  •  S. Barzegar-Parizi, and A Khavasi, “Designing dual-band absorbers by graphene/metallic metasurfaces,” IEEE Journal of Quantum Electronics 55 (2), 7300108, 2019
  • S. Barzegar-Parizi “Graphene-based tunable dual-band absorbers by ribbon/disk array Optical and Quantum Electronics 51 (10), 167, 2019
  •  S. Barzegar-Parizi, “Effective medium of a stacked structure composed of periodic arrays of holes for low terahertz regime,” Journal of Electromagnetic Waves and Applications 33 (1), 40-53, 2019
  •  S. Barzegar-Parizi, and A. Khavasi “Tunable extraordinary transmission through a graphene-covered hole array: an analytical equivalent-circuit modeling approach,” Plasmonics 14 (3), 569-577, 2019
  •  S. Barzegar-Parizi “Realization of wide-Angle and wideband absorber using metallic and graphene-based metasurface for mid-infrared and low THz frequency,” Optical and Quantum Electronics 50 (10), 378, 2018
  • S. Barzegar-Parizi, “Analysis of Stacked Structures Composed of Arrays of Thick Slits: an Accurate Analytical Circuit Model,” Plasmonics 13 (5), 1711–1719, 2018
  •  S Barzegar-Parizi, MR Tavakol, A Khavasi, “Deriving surface impedance for 2-D arrays of graphene patches using a variational method,” IEEE Journal of Quantum Electronics 53 (1) 7000106, 2017
  • S. Barzegar-Parizi, “Study of backward waves in multilayered structures composed of graphene micro-ribbons,” Journal of Applied Physics 119 (19), 193105, 2016
  •  S. Barzegar-Parizi, B. Rejaei and A. Khavasi, “Analytical Circuit Model for Periodic Arrays of Graphene Disks,” IEEE Journal of Quantum Electronics 51 (9), 7000507, 2015
  • S. Barzegar-Parizi, B. Rejaei, “An Exact Method for the Extraction of Effective Bulk and Surface Parameters of Periodic Artificial Media,” IEEE Transactions on Antennas and Propagation 63 (6), 2521-2531, 2015
  •  S. Barzegar-Parizi, B. Rejaei, “Calculation of effective parameters of high permittivity integrated artificial dielectrics,” IET Microwaves, Antennas & Propagation 9 (12), 1287-1296 2015
  •  S. Barzegar-Parizi and A. A. Shishegar, “Electromagnetic Wave Scattering Analysis From 2-D Periodic Rough Surfaces Using Complex Images Technique,” IEEE Transactions on Geoscience and Remote Sensing 53 (2), 862-868, 2015

مقالات ژورنالی

  • An Exact Method for the Extraction of Effective Bulk and Surface Parameters of Periodic Artificial Media
  •  Analysis of Stacked Structures Composed of Arrays of Thick Slits: an Accurate Analytical Circuit Model
  •  Analytical Circuit Model for Periodic Arrays of Graphene Disks
  •  Calculation of effective parameters of high permittivity integrated artificial dielectrics
  •  Deriving Surface Impedance for Two-Dimensional Arrays of Graphene Patches Using a Variational Method
  •  Design of a Miniaturized Narrow-Band Absorber Based on Metallic Metamaterial at Terahertz Frequency (In Persian)
  •  Designing Dual-Band Absorbers by Graphene/Metallic Metasurfaces
  •  Dual-Band High Impedance Surface with Graphene-based Metasurfaces
  •  Dual-Broadband and Single Ultra-Wideband Absorbers from Terahertz to Infrared Regimes
  •  Dynamically Switchable Sub-THz Absorber Using VO2 Metamaterial Suitable in Optoelectronic Applications
  •  Effective Medium of Stacked Structure Composed of Periodic Arrays of Holes for Low Terahertz Regime
  •  Electromagnetic Wave Scattering Analysis From 2-D Periodic Rough Surfaces Using Complex Images Technique
  •  Graphene-based Tunable Dual-Band Absorbers by Ribbon/Disk Array
  •  High-Q Dual-Band Graphene Absorbers by Selective Excitation of Graphene Plasmon Polaritons: Circuit Model Analysis
  •  Realization of wide-Angle and wideband absorber using metallic and graphene-based metasurface for mid-infrared and low THz frequency
  •  Refractive index sensor with dual sensing bands based on array of Jerusalem cross cavities to detect the hemoglobin concentrations
  •  Study of backward waves in multilayered structures composed of graphene microribbons
  •  Terahertz High-Q Absorber Based on Holes Array Perforated into a Metallic Slab
  •  Terahertz all metallic perfect absorber for refractive index sensing and glucose concentration detection
  •  Tunable Extraordinary Transmission through a Graphene-Covered Hole Array: An Analytical Equivalent-Circuit Modeling Approach
  •  Ultrathin, Polarization-Insensitive Multi-Band Absorbers Based on Graphene Metasurface with THz Sensing Application
  •  حسگر ضریب شکست بر پایه جاذب الکترومغناطیس فراماده باند باریک در فرکانس های مایکروویو و تراهرتز

مقالات کنفرانسی

S. Barzegar-Parizi, “Analysis of stacked structures of two-dimensional holes and dielectric slabs,” 2017 IEEE Asia Pacific Microwave Conference (APMC), 200-203, 2017

S. Barzegar-Parizi, “Analytical analysis of structures composed of periodic arrays of slits and dielectric slabs” 2017 IEEE Asia Pacific Microwave Conference (APMC), 1286-1289, 2017

S. Barzegar-Parizi, B. Rejaei, “Millimeter-wave artificial dielectric waveguides for integrated applications,” IEEE International Microwave and RF Conf., Bangalore, pp. 225-228, 2014.

S. Barzegar-Parizi and A. A. Shishegar, “Electromagnetic scattering from perfectly conducting periodic rough surfaces using complex images technique,” IEEE Antennas and Propagation Society International Symposium (APSURSI), Toronto, Canada, pp. 1-4, 2010

Analysis of stacked structures of two-dimensional holes and dielectric slabs

 Analytical analysis of structures composed of periodic arrays of slits and dielectric slabs

 Electromagnetic scattering from perfectly conducting periodic rough surfaces using complex images technique

 Millimeter-Wave Artificial Dielectric Waveguides for Integrated Applications

روز
۹:۳۰ – ۷:۳۰
۱۱:۳۰ – ۹:۳۰
۱۱:۳۰-۱۳:۳۰
۱۴-۱۶
۱۶-۱۸
۱۸-۲۰
شنبه
ریاضیات مهندسی (S12)
یکشنبه
ریاضیات مهندسی (S12)
الکترونیک 1 (C24)
دوشنبه
الکترونیک 1 (S12)
سه شنبه
ریاضیات مهندسی (C24)
چهارشنبه