K. N. Toosi University

1.M.Kaboli, A.Molaei,S.A. Abrishamian, and S.A. Mirtaheri, S.A " Dielectric lens balanced Antipodal Vivaldi antenna with low cross polarization for uwb applications," IET Microwaves, Antenna &Propagation,Accepted for publication.

2.Bahramipanah, M.; Abrishamian, M.S.; Mirtaheri, S.A.; Liu, J.-M. "Ultracompact plasmonic loopstub notch filter and sensor". Sensors and Actuators B: Chemical 2014, 194, 311.

3.M Bahramipanah, M S Abrishamian and S A Mirtaheri," Beam manipulating by metal–anisotropic–metal plasmonic lens", IOPSCIENCE, Journal of Optics, Vol.14,2012.

4.Bahramipanah, M.; Abrishamian, M. S.; Mirtaheri, S. A.," Tuning the focal point of a plasmonic lens by nematic liquid crystal", Journal of the European Optical Society - Rapid publications, Europe, v. 7, dec. 2012. ISSN 1990-2573.

5.Mohsen Bahramipanah, Seyed Abdollah Mirtaheri, and Mohammad Sadegh Abrishamian, "Electrical beam steering with metal-anisotropic-metal structure," Opt. Lett. 37, 527-529 (2012)

6.Kaboli, M.; Abrishamian, M.S.; Mirtaheri, S.A.; Aboutorab, S.M., "High-Isolation XX-Polar Antenna,", IEEE Transactions on Antennas and Propagation, vol.60, no.9, pp.4046,4055, Sept. 2012.

7.Fereidoony, F.; Chamaani, S.; Mirtaheri, S.A., "Systematic Design of UWB Monopole Antennas With Stable Omnidirectional Radiation Pattern," Antennas and Wireless Propagation Letters, IEEE , vol.11, no., pp.752,755, 2012.

8.Chamaani, S.; Mirtaheri, S.A.; Abrishamian, M.S., "Improvement of Time and Frequency Domain Performance of Antipodal Vivaldi Antenna Using Multi-Objective Particle Swarm Optimization," IEEE Transactions on Antennas and Propagation, vol.59, no.5, pp.1738,1742, May 2011.

9.Kaboli, M.; Farahani, H.S.; Abrishamian, M.S.; Mirtaheri, S.A., "Low-profile, high-gain and broadband array of corner cube reflector antenna based on substrate integrated waveguide," Electronics Letters , vol.47, no.6, pp.363,364, March 17 2011.

10.Kaboli, M.; Mirtaheri, S.A.; Abrishamian, M.S., "High-Isolation X-Polar Antenna," Antennas and Wireless Propagation Letters, IEEE , vol.9, no., pp.401,404, 2010.

11.M Bahrami Panah, M S Abrishamian and S A Mirtaheri, " Tunable anisotropic photonic crystal channel-drop filter", IOPSCIENCE, Journal of Optics, Vol.13,2010.

12.Chamaani, S.; Mirtaheri, S.A.; Paran, K.; Abolghasemi, A.; Fardis, M., "Coplanar waveguide-fed ultra wideband planar monopole antenna optimisation," Microwaves, Antennas & Propagation, IET , vol.4, no.9, pp.1264,1274, September 2010.

13.Tahanian, E.; Chamaani, S.; Mirtaheri, S.A., "Compact ultra-wideband bandpass filters using EBG," Electronics Letters , vol.46, no.19, pp.1328,1330, Sept. 16, 2010.

14.Chamaani, S.; Abrishamian, M.S.; Mirtaheri, S.A., "Time-Domain Design of UWB Vivaldi Antenna Array Using Multiobjective Particle Swarm Optimization," Antennas and Wireless Propagation Letters, IEEE , vol.9, no., pp.666,669, 2010

15.M. Djavid, S. A. Mirtaheri, and M. S. Abrishamian, "Photonic crystal notch-filter design using particle swarm optimization theory and finite-difference time-domain analysis," J. Opt. Soc. Am. B 26, 849-853 (2009).

16.S. Chamaani, M. S. Abrishamian, and S. A. Mirtaheri, "Multi-objective optimization of UWB monopole antenna," Progress In Electromagnetics Research C, Vol. 8, 83-94, 2009.

17.Somayyeh Chamaani, Seyed Abdullah Mirtaheri, Mahdi Aliyari Shooredeli," Design of very thin wide band absorbers using modified local best particle swarm optimization",International Journal of Electronics and Communications, Vol. 62,pp 549-556, 1 August 2008.

18.A. Khajehpour and S. A. Mirtaheri, "Analysis of pyramid EM wave absorber by FDTD method and comparing with capacitance and homogenization methods," Progress In Electromagnetics Research Letters, Vol. 3, 123-131, 2008.

19.S. Chamaani, S. A. Mirtaheri, M. Teshnehlab, M. A. Shooredeli, and V. Seydi, "Modified multi-objective particle swarm optimization for electromagnetic absorber design," Progress In Electromagnetics Research, Vol. 79, 353-366, 2008.

20.S.Abdullah Mirtaheri, T.Mizumoto and Y.Naito, "The shielding effect of composite material of rubber, carbon and ferrite on microwave oven leakage", Trans. IEICE Japan, vol.E73, No.6, pp.873-875 (1990).

21.AMirtaheri, T.Mizumoto, and Y.Naito, "The Electromagnetic and Dispersion Characteristics of Materials Composed of Rubber, Carbon and Ferrite", EICE TRANSACTIONS (1976-1990) vol.E73-E No.10, Oct 1990.

22.S.A.Mirtaheri, J.Yin, H.Seki, T.Mizumoto, and Y.Naito,"The Characteristics of Electromagnetic Wave Absorber Composed of Rubber, Carbon and Ferrite", IEICE TRANSACTIONS (1976-1990) vol.E72-E No.12, Dec 1989.

 

conference papers:

 

1.Vaziri, A.; Kaboli, M.; Mirtaheri, S.A., "Dual-polarized aperture-coupled wideband microstrip patch antenna with high isolation for C-Band," Electrical Engineering (ICEE), 2013 21st Iranian Conference on , vol., no., pp.1,4, 14-16 May 2013.

2.Mohsen Kaboli, S. Abdullah Mirtaheri, S. Mostafa Mousavi Roknabadi, Mohammad S. Abrishamian, and S. Mohsen Aboutorab, " Broadband Dual-Polarized Cross V-Shaped Dipole Antenna with High Isolation for Wireless Applications", 7^th European Conference on Antenna and Propagation(Eucap), 2013.

3.Seyed Mostafa Mousavi Roknabadi, Seyyed Abdullah Mirtaheri, Mohsen Kaboli," A Bowl-Shaped Beam Reflectarray Antenna for Satellite Communication ",7^th European Conference on Antenna and Propagation(Eucap), 2013.

4.میثم حق پرست، سید عبداله میرطاهری و محمدصادق ابریشمیان، "بررسی اثر رزونانس برروی روش نمونه برداری خطی"، دومین کنفرانس الکترومغناطیس مهندسی ایران،دی ماه 1392.

5.هادی قبادی، سید عبداله میرطاهری و آرش احمدی،"طراحی، شبیه سازی و ساخت فیلتر میانگذر کوپلاژ روزنه سلفی در باند X"،"، دومین کنفرانس الکترومغناطیس مهندسی ایران،دی ماه 1392.

6.Bahramipanah, M.; Mahigir, A.; Abrishamian, M.S.; Mirtaheri, S.A., "Tuning the focus of a plasmonic lens by anisotropic material," Electrical Engineering (ICEE), 2012 20th Iranian Conference on , vol., no., pp.1210,1213, 15-17 May 2012.

7.Haghparast, Maysam, S. A. Mirtaheri, and M. S. Abrishamian. "Comparison of Different Metaheuristic Optimization Methods’ Capability in Two Dimensional Inverse Scattering." ,Progress In Electromagnetic Research Conference,Moscow, August 2012.

8.Haghparast, M., S. A. Mirtaheri, and M. S. Abrishamian. "Reconstruction of 1-D Dielectric Scatterer with Cosine and Spline Expansions Using Differential Evolution and Particle Swarm Optimization." ,Progress In Electromagnetic Research Conference,Moscow, August 2012.

9.Haghparast, Maysam, S. A. Mirtaheri, and M. S. Abrishamian. "Comparison of Different Metaheuristic Optimization Methods’ Capability in Two Dimensional Inverse Scattering." ,Progress In Electromagnetic Research Conference,Moscow, August 2012.

10.Roknabadi, S.M.M.; Jafargholi, A.; Mirtaheri, S.A.; Kamyab, M., "Easily implemented miniaturized ENZ metamaterial medium using spiral inductors," Electrical Engineering (ICEE), 2012 20th Iranian Conference on , vol., no., pp.1339,1341, 15-17 May 2012.

11.Moghadam, A. T.; Abrishamian, M.S.; Mirtaheri, S.A., "Optical stub filter by plasmonic nanorod waveguide," Winter Topicals (WTM), 2011 IEEE , vol., no., pp.55,56, 10-12 Jan. 2011.

12.Moghadam, A. T.; Abrishamian, M.S.; Mirtaheri, S.A., " Plasmonic low pass filter by nano rodes embedded in metal-insulator-metal waveguides," Winter Topicals (WTM), 2011 IEEE , vol., no., pp.5,6, 10-12 Jan. 2011.

13.Chamaani, S.; Mirtaheri, S.A.; Abrishamian, M.S., "Time-domain design of UWB Vivaldi antenna array using multi-objective particle swarm optimization," Electrical Engineering (ICEE), 2010 18th Iranian Conference on , vol., no., pp.119,123, 11-13 May 2010.

14.Chamaani, S.; Mirtaheri, S.A.; Abrishamian, M.S., "Time-domain design of UWB Vivaldi antenna array using multi-objective particle swarm optimization," Electrical Engineering (ICEE), 2010 18th Iranian Conference on , vol., no., pp.119,123, 11-13 May 2010.

15.Chamaani, S.; Mirtaheri, S.A.; Nechayev, Y.I.; Hall, P.S., "MICS band indoor channel modeling using ray tracing method," Telecommunications (IST), 2010 5th International Symposium on , vol., no., pp.126,131, 4-6 Dec. 2010.

16.Chamaani, S.; Nechayev, Y.I.; Hall, P.S.; Mirtaheri, S.A., "In-body to off-body channel modelling," Antennas and Propagation Conference (LAPC), 2010 Loughborough , vol., no., pp.609,612, 8-9 Nov. 2010.

17.امينه خواجه و سيد عبداله ميرطاهري ، "محاسبه ميزان جذب جاذب هاي هرمي به روش FDTD و مقايسه آن با روش هاي همگن سازي و خازني"، شانزدهيمن كنفرانس مهندسي برق ايران،دانشگاه تربیت مدرس تهران، 1387.

 

18.Mirtaheri, S.A.; Salimpoor, S., "HEV (Hybrid Electric Vehicles) and the Wiring Reduction Methods," Vehicle Power and Propulsion Conference, 2006. VPPC '06. IEEE , vol., no., pp.1,5, 6-8 Sept. 2006.

19.سیدعبدالله میرطاهری،" محاسبه میزان جذب جاذب های کروی و مخروطی با روش تحلیل مدل خازنی و مقایسه آن با جاذب های هرمی "، سیزدهیمن کنفرانس مهندسی برق ایران، دانشگاه زنجان، 1384.

20.سیدعبدالله میرطاهری  ، آرزو عدالتی،" مقایسه روش تحلیل مدل خازنی با روش های تحليل دقیق تر برای جاذب های هرمی و گوه ای "، هشتمین کنفرانس مهندسی برق ایران، دانشگاه صنعتی اصفهان،1379.

21.سیدعبدالله میرطاهری،  "افزایش پهنای باند جاذبهای چند لابه الکترومغناطیس با استفاده از فریت ها تا 2750 مگاهرتز، ششمین کنفرانس مهندسی برق ایران، دانشگاه صنعتی خواجه نصرالدین طوسی، 1377.

22.Seyed Abdullah Mirtaheri,"A fin structure for wide bandwidth electromagnetic wave absorber", Iranian conference on electrical engineering, University of Tehran, May 1996.

23.Seyed Abdullah Mirtaheri,"The Thickness of EM Ware absorber utilizing ferrite", Iranian conference on electrical engineering, Amirkabir University of Technology, 1993.

24.Naito Yoshiyuki, Seki Hajime,Mirtaheri Sayad Abdullah, Kitahara Naoto, Wada Hideki, In: EMC '89 - International Symposium on Electromagnetic Compatibility, Nagoya, Japan, Sept. 8-10, 1989, Proceedings. Vol. 2 (A1991-50754 21-32). Tokyo/New York, Institute of Electronics.

25.سیدعبدالله میرطاهری، "افزایش پهنای باند جاذبهای امولج الکترومغناطیس فریتی با لایه های دی الکتریک"،

کنفرانس مهندسی برق ایران،  1370خرداد.

26.سیدعبدالله میرطاهری، "افزایش پهنای باند جاذبهای امولج الکترومغناطیس فریتی با لایه های دی الکتریک"،

کنفرانس مهندسی برق ایران،  1370خرداد.

 

27.S.A.Mirtaheri, J.Yin, H.Seki, T.Mizumoto and Y.Naito, "The characteristics of electromagnetic wave absorber composed of rubber, carbon and ferrite", International Symposium on Electromagnetic Compatibility, Nagoya, Technical Digest pp.784-787 of vol.2 (Sept., 1989).