مقالات چاپ شده در نشریات

1. A.‎ Zareizadeh and N.‎ Nozhat, “Investigation of a GST plasmonic gap structure as a switch and sensor,” Appl.‎ Opt.‎, vol.‎ ۶۲, pp.‎ ۶۱۵۶-۶۱۶۲, ۲۰۲۳.‎
2. M.‎ Khodadadi, S.‎ M.‎ M.‎ Moshiri, N.‎ Nozhat, and M.‎ Khalily, “Controllable hybrid plasmonic integrated circuit,” Sci.‎ Rep.‎, vol.‎ ۱۳, pp.‎ ۹۹۸۳-۱-۲۰, ۲۰۲۳.‎
3. M.‎ Khodadadi, S.‎ M.‎ M.‎ Moshiri, N.‎ Nozhat, and M.‎ Khalily, “Hybrid plasmonic rhombic nano-antenna with a dielectric director,” Opt.‎ Mater.‎ Express, vol.‎ ۱۳, pp.‎ ۱۷۵۲-۱۷۶۴, ۲۰۲۳.‎
4. S.‎ Heidari and N.‎ Nozhat, “Plasmonic wideband GST-based switch in the near-infrared region”, IET Optoelec.‎, vol.‎ ۱۶, pp.‎ ۲۰۱-۲۰۶, ۲۰۲۲.‎
5. S.‎ Heidari and N.‎ Nozhat, “Wideband polarization-independent plasmonic switch based on GST phase change material”, Appl.‎ Opt.‎, vol.‎۶۱, pp.‎ ۴۰۶۸-۴۰۷۳, ۲۰۲۲.‎
6. S.‎ Heidari and N.‎ Nozhat,”Graphene-based triple-band switch with circuit model method in far-ifrared region”, Opt.‎ Quant.‎ Elec.‎, vol.‎ ۵۴, pp.‎ ۱۷۴-۱-۱۳, ۲۰۲۲.‎
7. M.‎ Khodadadi, N.‎ Nozhat, and S.‎ M.‎ M.‎ Moshiri, “Theoretical analysis of a graphene quantum well hybrid plasmonic waveguide to design an inter/intra-chip nanoantenna”, Carbon, vol.‎ ۱۸۹, pp.‎ ۴۴۳-۴۵۸, ۲۰۲۲.‎
8. N.‎ Karampour and N.‎ Nozhat, "Ultrafast all optical metamaterial THz switch by exploiting nanoparticle-enriched substrate nonlinearity and graphene resonators, J.‎ Opt.‎ Soc.‎ Am.‎ B, vol.‎ ۳۸, pp.‎ ۲۷۲۱-۲۷۲۷, ۲۰۲۱.‎
9. Z.‎ Nasehi and N.‎ Nozhat, "Angle robust reflective subtractive color filter using titanium dioxide metasurface and aluminium mirrors," Iranian J.‎ Elec.‎ Comput.‎, vol.‎ ۱۸, pp.‎ ۲۶۸-۲۷۲, ۲۰۲۱.‎
10. S.‎ M.‎ M.‎ Moshiri and N.‎ Nozhat, “Smart optical cross dipole nanoantenna with multibeam pattern,” Sci.‎ Rep.‎, vol.‎ ۱۱, pp.‎ ۵۰۴۷-۱-۱۲, ۲۰۲۱.‎
11. M.‎ S.‎ Zare, N.‎ Nozhat, and M.‎ Khodadadi, “Wideband graphene-based fractal absorber and its applications as switch and inverter,” Plasmonics, vol.‎ ۱۶, pp.‎ ۱۲۴۱-۱۲۵۱, ۲۰۲۱.‎
12. S.‎ M.‎ M.‎ Moshiri, N.‎ Nozhat, and M.‎ Khodadadi, “Dynamic beam-steering of graphene-based terahertz cross Yagi–Uda antenna with a theoretical approach,” J.‎ Opt.‎, vol.‎ ۲۳, pp.‎ ۰۱۵۰۰۲-۱-۱۷, ۲۰۲۱.‎
13. F.‎ Baranzadeh and N.‎ Nozhat, “High performance plasmonic nano-biosensor based on tunable ultra-narrowband perfect absorber utilizing liquid crystal,” Plasmonics, vol.‎ ۱۶, pp.‎ ۲۵۳-۲۶۲, ۲۰۲۱.‎
14. M.‎ Khodadadi and N.‎ Nozhat, “Theoretical analysis of a super-mode waveguide and design of a complementary triangular hybrid plasmonic nano-antenna”, IEEE J.‎ Sel.‎ Top.‎ Quant.‎ Electeron.‎, vol.‎ ۲۷, pp.‎ ۴۶۰۰۲۱۰-۱-۱۰, ۲۰۲۱.‎
15. M.‎ Khodadadi, N.‎ Nozhat, and S.‎ M.‎ M.‎ Moshiri, “Theoretical analysis of a circular hybrid plasmonic waveguide to design a hybrid plasmonic nano-antenna”, Sci.‎ Rep.‎, vol.‎۱۰, pp.‎ ۱۵۱۲۲-۱-۱۷, ۲۰۲۰.‎
16. S.‎ M.‎ M.‎ Moshiri, M.‎ Khodadadi, and N.‎ Nozhat, “Theoretical analysis of ultra-fast multi-wavelength switch containing Kerr nonlinear material and its application as simultaneous AND and NOR logic gates”, Appl.‎ Opt.‎, vol.‎ ۵۹, pp.‎ ۶۰۳۰-۶۰۴۰, ۲۰۲۰.‎
17. M.‎ Khodadadi, S.‎ M.‎ M.‎ Moshiri, and N.‎ Nozhat, “Theoretical analysis of a simultaneous graphene-based circular plasmonic refractive index and thickness bio-sensor”, IEEE Sensors J.‎, vol.‎ ۲۰, pp.‎ ۹۱۱۴-۹۱۲۳, ۲۰۲۰.‎
18. M.‎ Nejat and N.‎ Nozhat, “Multi-band MIM refractive index biosensor based on Ag-air grating with equivalent circuit and T-matrix methods in near-infrared region”, Sci.‎ Rep.‎, vol.‎ ۱۰, pp.‎ ۶۳۵۷-۱-۱۲, ۲۰۲۰.‎
19. M.‎ Nejat and N.‎ Nozhat, “Analytical methods of equivalent circuit model and transmission matrix for a plasmonic switch with sensing capability in near-infrared region”, Plasmonics, vol.‎ ۱۵, pp.‎ ۱۴۵۹-۱۴۷۰, ۲۰۲۰.‎
20. M.‎ Nejat and N.‎ Nozhat, “Sensing and switching capabilities of a graphene-based perfect dual-band metamaterial absorber with analytical methods”, J.‎ Opt.‎ Soc.‎ Am.‎ B, vol.‎ ۳۷, pp.‎ ۱۳۵۹-۱۳۶۶, ۲۰۲۰.‎
21. M.‎ Nejat and N.‎ Nozhat, ”Sensing and switching capabilities of a tunable GST-based perfect absorber in near-infrared region,” J.‎ Phys.‎ D: Appl.‎ Phys.‎, vol.‎ ۵۳, pp.‎ ۲۴۵۱۰۵-۱-۱۱, ۲۰۲۰.‎
22. M.‎ Khodadadi, N.‎ Nozhat, and S.‎ M.‎ M.‎ Moshiri, “High gain and wideband on-chip hybrid plasmonic V-shaped nano-antenna”, J.‎ Opt.‎, vol.‎ ۲۲, pp.‎ ۰۳۵۰۰۵-۱-۱۷, ۲۰۲۰.‎
23. M.‎ Khodadadi, N.‎ Nozhat, and S.‎ M.‎ M.‎ Moshiri, “Analytic approach to study a hybrid plasmonic waveguide-fed and numerically design a nano-antenna based on the new director”, Opt.‎ Express, vol.‎ ۲۸, pp.‎ ۳۳۰۵-۳۳۳۰, ۲۰۲۰.‎
24. M.‎ Nejat and N.‎ Nozhat,” Ultrasensitive THz refractive index sensor based on a controllable perfect MTM absorber” IEEE Sensors J.‎, vol.‎ ۱۹, pp.‎ ۱۰۴۹۰-۱۰۴۹۷, ۲۰۱۹.‎
25. M.‎ Nejat and N.‎ Nozhat,” Design, theory and circuit model of wideband, tunable and polarization-insensitive terahertz absorber based on graphene” IEEE Trans.‎ Nanotechnol.‎, vol.‎ ۱۸, pp.‎ ۶۸۴-۶۹۰, ۲۰۱۹.‎
26. N.‎ Khalili Palandi, N.‎ Nozhat, and R.‎ Basiri, “Design and fabrication of small and low profile microstrip monopole antenna using CRLH-TL structures,” J.‎ Electromag.‎ Waves Appl.‎, vol.‎ ۳۳, pp.‎ ۱۷۴۹-۱۷۶۳, ۲۰۱۹.‎
27. S.‎ M.‎ M.‎ Moshiri, M.‎ Khodadadi, and N.‎ Nozhat, “Compact and wideband bandpass filters with analysis of the CRLH-TL characteristics based on stepped impedance,” AEU- Int.‎ J.‎ Electron.‎ Commun.‎, vol.‎ ۱۰۸, pp.‎ ۹۶-۱۰۶, ۲۰۱۹.‎
28. R.‎ Rashiditabar and N.‎ Nozhat, “Narrow and wide band tunable absorbers based on gold squares dispersed in liquid crystal,” Opt.‎ Quant.‎ Elec.‎, vol.‎ ۵۱, pp.‎ ۱۶۹-۱-۱۰, ۲۰۱۹.‎
29. Z.‎ Nasehi and N.‎ Nozhat, “Liquid crystal based tunable plasmonic subtractive color filters,” Opt.‎ Commun.‎, vol.‎ ۴۴۵, pp.‎ ۹۶-۱۰۰, ۲۰۱۹.‎
30. F.‎ Baranzadeh and N.‎ Nozhat, “Tunable metasurface refractive index plasmonic nano-sensor utilizing ITO thin layer in near-infrared region,” Appl.‎ Opt.‎, vol.‎ ۵۸, pp.‎ ۲۶۱۶-۲۶۲۳, ۲۰۱۹.‎
31. M.‎ S.‎ Zare, N.‎ Nozhat, and R.‎ Rashiditabar, “A strong controllable absorber using graphene-metal nanostructure”, J.‎ Modern Opt.‎, vol.‎ ۶۶, pp.‎ ۷-۱۶, ۲۰۱۹.‎
32. S.‎ Amiri and N.‎ Nozhat, “Improvement of the bulk sensitivity and FoM of the plasmonic nanodipole antenna array,” Iranian J.‎ Information Commun.‎ Technol.‎, vol.‎ ۹, pp.‎ ۲۷-۳۳, ۲۰۱۸.‎
33. M.‎ Sharifi, N.‎ Nozhat, and E.‎ Zareian Jahromi “Improving the directivity of the plasmonic sectoral horn nanoantenna using lens in its aperture,” Iranian J.‎ Information Commun.‎ Technol.‎, vol.‎ ۹, pp.‎ ۲۱-۲۶, ۲۰۱۸.‎
34. Z.‎ Mohebbi, N.‎ Nozhat, and M.‎ Khodadadi, “All-optical simultaneous AND & XOR logic gates based on nonlinear micro-ring resonator”, J.‎ Modern Opt.‎, vol.‎ ۶۵, pp.‎ ۲۳۲۶-۲۳۳۱, ۲۰۱۸.‎
35. N.‎ Karampour and N.‎ Nozhat, “Infrared-visible ultra-wide band polarization-independent metamaterial absorber utilizing low conductivity π-shaped element”, Plasmonics, vol.‎ ۱۳, pp.‎ ۲۳۹۵-۲۴۰۳, ۲۰۱۸.‎
36. R.‎ Rashiditabar, N.‎ Nozhat, and M.‎ S.‎ Zare, “Tunable plasmonic absorber based on TiN‑nanospheres liquid crystal hybrid in visible and near-infrared regions,” Plasmonics, vol.‎ ۱۳, pp.‎ ۱۸۵۳-۱۸۵۹, ۲۰۱۸.‎
37. N.‎ Nozhat, “Tunable terahertz plasmon induced transparency with aperture-side-coupled disk resonators”, Opt.‎ Eng.‎, vol.‎ ۵۶, pp.‎ ۰۵۷۱۰۱-۱-۶, ۲۰۱۷.‎
38. M.‎ S.‎ Zare, N.‎ Nozhat, and R.‎ Rashiditabar, “Tunable graphene based plasmonic absorber with grooved metal film in near infrared region”, Opt.‎ Commun.‎, vol.‎ ۳۹۸, pp.‎ ۵۶-۶۱, ۲۰۱۷.‎
39. N.‎ Karampour and N.‎ Nozhat, “Ultra-wideband polarization insensitive UT-shaped metamaterial absorber,” Photon.‎ Nanostruct.‎ Fund.‎ Appl.‎, vol.‎ ۲۴, pp.‎ ۳۵-۴۰, ۲۰۱۷.‎
40. N.‎ Nozhat, H.‎ Alikomak, and M.‎ Khodadadi, “All-optical XOR and NAND logic gates based on plasmonic nanoparticles,” Opt.‎ Commun.‎, vol.‎ ۳۹۲, pp.‎ ۲۰۸-۲۰۱۳, ۲۰۱۷.‎
41. M.‎ Akhlaghi, F.‎ Emami, and N.‎ Nozhat, “Binary PSO algorithm assisted to investigate the optical AND gate based- plasmonic nano-rods,” J.‎ Optoelectron.‎ Adv.‎ M.‎, vol.‎ ۱۸, pp.‎ ۹۸۲‑۹۸۶, ۲۰۱۶.‎
42. M.‎ S.‎ Zare, N.‎ Nozhat, and R.‎ Rashiditabar, “Improving the absorption of a plasmonic absorber using a single layer of graphene at telecommunication wavelengths”, Appl.‎ Opt.‎, vol.‎ ۵۵, pp.‎ ۹۷۶۴-۹۷۶۸, ۲۰۱۶.‎
43. S.‎ Amiri and N.‎ Nozhat, “Plasmonic nanodipole antenna array with extra arms for sensing applications”, J.‎ Opt.‎ Soc.‎ Am.‎ B, vol.‎ ۳۳, pp.‎ ۱۷۶۹-۱۷۷۶, ۲۰۱۶.‎
44. Z.‎ Mohebbi, N.‎ Nozhat, and F.‎ Emami, “High contrast all-optical logic gates based on ۲D nonlinear photonic crystal,” Opt.‎ Commun.‎, vol.‎ ۳۵۵, pp.‎ ۱۳۰-۱۳۶, ۲۰۱۵.‎
45. N.‎ Nozhat and N.‎ Granpayeh, “All-optical logic gates based on nonlinear plasmonic ring resonators”, Appl.‎ Opt.‎, vol.‎ ۵۴, pp.‎ ۷۹۴۴-۷۹۴۸, ۲۰۱۵.‎
46. M.‎ Akhlaghi, F.‎ Emami, and N.‎ Nozhat, “Location effect on gold nano bi-domes based absorption coefficient,” Opt.‎ Quant.‎ Electron.‎, vol.‎ ۴۷, pp.‎ ۱۷۱۳-۱۷۱۹, ۲۰۱۵.‎
47. F.‎‎ Emami, M.‎‎ Akhlaghi, and N.‎‎ Nozhat, “Binary optimization of gold nano-rods for designing an optical modulator,” J.‎ Comput.‎ Electron.‎, vol.‎ ۱۴, pp.‎ ۵۷۴-۵۸۱, ۲۰۱۵.‎
48. M.‎‎ Akhlaghi, N.‎‎ Nozhat, and F.‎‎ Emami, “High speed optical FSK demodulator using plasmonic nano rods,” J.‎ Mod.‎ Opt.‎, vol.‎ ۶۲, pp.‎ ۳۰۷-۳۱۲, ۲۰۱۵.‎
49. E.‎ Rafiee, F.‎ Emami, and N.‎ Nozhat, “Coupling coefficient increment and free spectral range decrement by proper design of microring resonator parameters,” Opt.‎ Eng.‎, vol.‎ ۵۳, pp.‎ ۱۲۳۱۰۸-۱-۷, ۲۰۱۴.‎
50. M.‎‎ Akhlaghi, N.‎‎ Nozhat, and F.‎‎ Emami, “Investigating the optical switch using dimer plasmonic nano-rods,” IEEE Trans.‎‎ Nanotechnol.‎‎, vol.‎ ۱۳, pp.‎ ۱۱۷۲-۱۱۷۵, ۲۰۱۴.‎
51. M.‎ Akhlaghi, F.‎ Emami, and N.‎ Nozhat, “TLBO algorithm assisted for designing plasmonic nano particles based absorption coefficient,” J.‎ Optoelectron.‎ Adv.‎ M.‎, vol.‎ ۸, pp.‎ ۸۴۵-۸۴۸, ۲۰۱۴.‎
52. N.‎ Nozhat and N.‎ Granpayeh, “All-optical nonlinear plasmonic ring resonator switches,” J.‎ Mod.‎ Opt.‎, vol.‎ ۶۱, pp.‎ ۱۶۹۰-۱۶۹۵, ۲۰۱۴.‎
53. M.‎ Akhlaghi, F.‎ Emami, and N.‎ Nozhat, “Binary TLBO algorithm assisted for designing plasmonic nano bi-pyramids-based absorption coefficient,” J.‎ Mod.‎ Opt.‎, vol.‎ ۶۱, pp.‎ ۱۰۹۲-۱۰۹۶, ۲۰۱۴.‎
54. N.‎ Nozhat and N.‎ Granpayeh, “SPM and XPM nonlinear effects in plasmonic directional couplers, considering the ponderomotive metal nonlinearity,” Appl.‎ Opt.‎, vol.‎ ۵۳, pp.‎ ۳۳۲۸-۳۳۳۲, ۲۰۱۴.‎
55. A.‎ Karimi, F.‎ Emami, and N.‎ Nozhat, “The effects of various apodization functions on the filtering characteristics of the grating-assisted SOI strip waveguides,” J.‎ Opt.‎ Soc.‎ Korea, vol.‎ ۱۸, pp.‎ ۱۰۱-۱۰۹, ۲۰۱۴.‎
56. N.‎ Nozhat and N.‎ Granpayeh, “Switching power reduction of the plasmonic directional coupler by XPM nonlinear effect,” IEEE Photon.‎ Technol.‎ Lett.‎, vol.‎ ۲۴, pp.‎ ۱۱۵۴-۱۱۵۶, ۲۰۱۲.‎
57. M.‎ Moghimi, S.‎ Mirzakuchaki, N.‎ Granpayeh, N.‎ Nozhat, and G.H.‎ Darvish, “Modification of photonic crystals for obtaining common band gaps for TE and TM waves,” Can.‎ J.‎ Phys.‎, vol.‎ ۹۰, pp.‎ ۱۷۵-۱۸۰, ۲۰۱۲.‎
58. N.‎ Nozhat and N.‎ Granpayeh, “Switching power reduction in the ultra-compact Kerr nonlinear plasmonic directional coupler,” Opt.‎ Commun.‎, vol.‎ ۲۸۵, pp.‎ ۱۵۵۵-۱۵۵۹, ۲۰۱۲.‎
59. M.‎ Moghimi, S.‎ Mirzakuchaki, N.‎ Granpayeh, and N.‎ Nozhat, “Design and optimization of ۲D photonic crystals for the best absolute band gap,” J.‎ Theoretical and Appl.‎ Phys.‎, vol.‎ ۵, pp.‎ ۵-۱۰, ۲۰۱۱.‎
60. N.‎ Nozhat, R.‎ C.‎ McPhedran, C.‎ M.‎ de Sterke, and N.‎ Granpayeh, “The plasmonic folded directional coupler,” Photon.‎ Nanostruct.‎ Fund.‎ Appl.‎, vol.‎ ۹, pp.‎ ۳۰۸-۳۱۴, ۲۰۱۱.‎
61. N.‎ Nozhat and N.‎ Granpayeh, “Analysis of the plasmonic power splitter and mux/demux suitable for photonic integrated circuits, “Opt.‎ Commun.‎, vol.‎ ۲۸۴, pp.‎ ۳۴۴۹-۳۴۵۵, ۲۰۱۱.‎
62. B.‎ Jafarian, N.‎ Nozhat, and N.‎ Granpayeh, “A triangular-shaped plasmonic metal-insulator-metal Bragg grating waveguide,” J.‎ Opt.‎ Soc.‎ Korea, vol.‎ ۱۵, pp.‎ ۱۱۸-۱۲۳, ۲۰۱۱.‎
63. N.‎ Nozhat and N.‎ Granpayeh, “Specialty fibers designed by photonic crystals,” Progress in Electromagnetics Research, PIER, vol.‎ ۹۹, pp.‎ ۲۲۵-۲۴۴, ۲۰۰۹.‎

مقالات ارائه شده در کنفرانس‌ها

1. S.‎ Heidari and N.‎ Nozhat, “Graphene-based plasmonic switch in the near-infrared band with equivalent circuit,” ۲۹^th Iranian Conference on Optics and Photonics (ICOP۲۰۲۳), Shiraz, Iran, ۳۱ Jan.‎-۱ Feb, ۲۰۲۳.‎
2. S.‎ Heidari and N.‎ Nozhat, “Polarization-independent ultra-wideband plasmonic switch based on GST square-shaped resonators,” ۲۹^th Iranian Conference on Optics and Photonics (ICOP۲۰۲۳), Shiraz, Iran, ۳۱ Jan.‎-۱ Feb, ۲۰۲۳.‎
3. T.‎ Panahi and N.‎ Nozhat, “GST-based plasmonic nano-switch with equivalent circuit model in near-infrared region,” ۲۷^th Iranian Conference on Optics and Photonics (ICOP۲۰۲۱), Zahedan, Iran, Jan.‎ ۲۶-۲۸, ۲۰۲۱.‎
4. S.‎ Heidari and N.‎ Nozhat, “Graphene-based plasmonic absorber with sensing application in the far۰infrared region,” ۲۷^th Iranian Conference on Optics and Photonics (ICOP۲۰۲۱), Zahedan, Iran, Jan.‎ ۲۶-۲۸, ۲۰۲۱.‎
5. S.‎ Heidari and N.‎ Nozhat, “Tunable dual-band plasmonic absorber utilizing two-layer graphene,” ۲۷^th Iranian Conference on Optics and Photonics (ICOP۲۰۲۱), Zahedan, Iran, Jan.‎ ۲۶-۲۸, ۲۰۲۱.‎
6. T.‎ Panahi and N.‎ Nozhat, “Design and simulation of broadband plasmonic switch based on vanadium dioxide in infrared region,” ۲۶^th Iranian Conference on Optics and Photonics (ICOP۲۰۲۰), Karaj, Iran, Feb.‎ ۴-۵, ۲۰۲۰.‎
7. M.‎ Nejat, R.‎ Basiri, and N.‎ Nozhat, “Design and simulation of tunable and multiband graphene based absorber in terahertz frequency region,” ۴^th Iranian Conference on Communications Engineering (ICCE۲۰۱۸), Tabriz, Iran, Oct.‎ ۲۴-۲۵, ۲۰۱۸.‎
8. F.‎ Baranzadeh and N.‎ Nozhat, “Refractive index plasmonic nano-Sensor using metal ribbons in near-infrared region,” ۴^th Iranian Conference on Communications Engineering (ICCE۲۰۱۸), Tabriz, Iran, Oct.‎ ۲۴-۲۵, ۲۰۱۸.‎
9. Z.‎ Nasehi and N.‎ Nozhat, “Angle and polarization insensitive highly reflective subtractive color filter,” ۴^th Iranian Conference on Communications Engineering (ICCE۲۰۱۸), Tabriz, Iran, Oct.‎ ۲۴-۲۵, ۲۰۱۸.‎
10. Z.‎ Razavi, H.‎ Pakarzadeh, and N.‎ Nozhat, “Simulation of optical dipole nano-antennas: Effect of geometrical parameters,” Annual Physics Conference of Iran, Qazvin, Iran, Aug.‎ ۲۷-۳۰, ۲۰۱۸.‎
11. R.‎ Rashiditabar and N.‎ Nozhat, “Tunable narrow band plasmonic absorber based on liquid crystal and gold squares,” ۲۴^th Iranian Conference on Optics and Photonics (ICOP۲۰۱۸), Shahrekord, Iran, ۳۰ Jan.‎-۱ Feb.‎, ۲۰۱۸.‎
12. S.‎ M.‎ M.‎ Moshiri and N.‎ Nozhat, “Design of wideband bandpass filter using multiple-mode resonator with two transmission zeros,” ۲۵^th Iranian Conference on Electrical Engineering (ICEE۲۰۱۷), Tehran, Iran, May ۲-۴, ۲۰۱۷.‎
13. N.‎ Khalili, N.‎ Nozhat, and R.‎ Basiri, “Design of a small and multiband monopole antenna using split ring resonators,” ۳^rd Iranian Conference on Communications Engineering (ICCE۲۰۱۷), Tehran, Iran, Feb.‎ ۲۳, ۲۰۱۷.‎
14. M.‎ S.‎ Zare, N.‎ Nozhat, and R.‎ Rashiditabar, “Absorption enhancement in tunable graphene based plasmonic absorber,” ۴^th International Conference on Millimeter Wave & Terahertz Technologies,(MMWaTT ۲۰۱۶), Tehran, Iran, Dec.‎ ۲۰-۲۲, ۲۰۱۶.‎
15. N.‎ Karampour and N.‎ Nozhat, “Triple-band metamaterial absorber based on electric excitation of split ring resonator magnetic resonance,” ۴^th International Conference on Millimeter Wave & Terahertz Technologies,(MMWaTT ۲۰۱۶), Tehran, Iran, Dec.‎ ۲۰-۲۲, ۲۰۱۶.‎
16. S.‎ Keshavarz and N.‎ Nozhat, “Dual-band Wilkinson power divider based on composite right/left-handed transmission lines,” ۱۳^th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON ۲۰۱۶), Chiang Mai, Thailand, ۲۸ June- ۱ July, ۲۰۱۶.‎
17. S.‎ Amiri and N.‎ Nozhat, “Improving the sensitivity of plasmonic nanodipole array antennas,” ۲^nd Iranian Conference on Communications Engineering (ICCE۲۰۱۶), Shiraz, Iran, Feb.‎ ۲۸-۲۹, ۲۰۱۶.‎
18. M.‎ Sharifi, N.‎ Nozhat, and E.‎ Zareian-Jahromi, “Increasing the directivity of the Plasmonic sectoral horn nanoantenna using the lens at the aperture,” ۲^nd Iranian Conference on Communications Engineering (ICCE۲۰۱۶), Shiraz, Iran, Feb.‎ ۲۸-۲۹, ۲۰۱۶.‎
19. H.‎ Alikomak and N.‎ Nozhat, “All-optical XOR logic gate based on plasmonic nanodisks array,” ۲^nd Iranian Conference on Communications Engineering (ICCE۲۰۱۶), Shiraz, Iran, Feb.‎ ۲۸-۲۹, ۲۰۱۶.‎
20. A.‎ Amiri and N.‎ Nozhat, “Investigation of structural parameters on the optical response of array plasmonic nanoantennas,” ۲۲^th Iranian Conference on Optics and Photonics (ICOP۲۰۱۶), Yazd, Iran, Jan.‎ ۲۶-۲۸, ۲۰۱۶.‎
21. M.‎ Sharifi, N.‎ Nozhat, and E.‎ Zareian-Jahromi, “Improving half-power beamwidth of a plasmonic horn nanoantenna utilizing leaky-wave walls,” ۲۲^th Iranian Conference on Optics and Photonics (ICOP۲۰۱۶), Yazd, Iran, Jan.‎ ۲۶-۲۸, ۲۰۱۶.‎
22. Z.‎ Mohebbi, N.‎ Nozhat, and F.‎ Emami, “High contrast all-optical XOR gate based on ۲D nonlinear photonic crystal,” ۳^rd Iranian Conference on Engineering Electromagnetics (ICEEM۲۰۱۴), Tehran, Iran, Dec.‎ ۳-۴, ۲۰۱۴.‎
23. E.‎ Rafiee, F.‎ Emami, and N.‎ Nozhat, “FSR decrement by proper design of micro-ring resonators for soliton-based communication systems,” ۳^rd Iranian Conference on Engineering Electromagnetics (ICEEM۲۰۱۴), Tehran, Iran, Dec.‎ ۳-۴, ۲۰۱۴.‎
24. N.‎ Nozhat and N.‎ Granpayeh, “Plasmonic square ring resonator switch with smooth corner bends,” ۲۰^th Iranian Conference on Optics and Photonics (ICOP۲۰۱۴), Shiraz, Iran, Jan.‎ ۲۸-۳۰, ۲۰۱۴.‎
25. A.‎ Karimi, F.‎ Emami, and N.‎ Nozhat, “Add-drop filters based on grating-assisted contra-directional couplers,” ۲۰^th Iranian Conference on Optics and Photonics (ICOP۲۰۱۴), Shiraz, Iran, Jan.‎ ۲۸-۳۰, ۲۰۱۴.‎
26. E.‎ Rafiee, F.‎ Emami, and N.‎ Nozhat, “Studying the effects of structural parameters on the optical gain of micro-ring resonators,” ۲۰^th Iranian Conference on Optics and Photonics (ICOP۲۰۱۴), Shiraz, Iran, Jan.‎ ۲۸-۳۰, ۲۰۱۴.‎
27. A.‎ Karimi, F.‎ Emami, and N.‎ Nozhat, “Apodized sidewall-corrugated SOI waveguide as a tunable Bragg reflector,” ۲^nd Iranian Conference on Engineering Electromagnetics (ICEEM۲۰۱۴), Tehran, Iran, Jan.‎ ۸-۹, ۲۰۱۴.‎
28. E.‎ Rafiee, F.‎ Emami, and N.‎ Nozhat, “Effects of structural parameters in add/drop filter characteristics,” ۳^rd Iranian Conference on Optics & Laser Engineering (ICOLE۲۰۱۳), Isfahan, Iran, Oct.‎ ۹-۱۰, ۲۰۱۳.‎
29. A.‎ Karimi, F.‎ Emami, and N.‎ Nozhat, “Silicon-on-insulator strip waveguides with both uniform and apodization sidewall gratings,” ۳^rd Iranian Conference on Optics & Laser Engineering (ICOLE۲۰۱۳), Isfahan, Iran, Oct.‎ ۹-۱۰, ۲۰۱۳.‎
30. N.‎ Nozhat and N.‎ Granpayeh, “Controlling the coupling ratio of the nonlinear plasmonic directional couplers by SPM and XPM nonlinear effects,” ۲۱^th Iranian Conference on Electrical Engineering (ICEE۲۰۱۳), Mashhad, Iran, May ۱۴-۱۶, ۲۰۱۳.‎
31. N.‎ Nozhat and N.‎ Granpayeh, “Controlling the coupling ratio in the nonlinear plasmonic directional coupler,” ۲۰۱۱ World Congress on Engineering and Technology (CET۲۰۱۱), Shanghai, China, Oct.‎ ۲۸-۳۱, ۲۰۱۱.‎
32. N.‎ Nozhat and N.‎ Granpayeh, “Ultra-compact metal-insulator-metal plasmonic power splitter at ۱۵۵۰nm wavelength,” Photonic Global Conference (PGC۲۰۱۰), Singapore, pp.‎ ۱-۴, Dec.‎ ۱۴-۱۶, ۲۰۱۰.‎
33. B.‎ Jafarian, N.‎ Nozhat, and N.‎ Granpayeh, “The apodized index-thickness-modulated Bragg grating waveguide,” Advances in Optoelectronics and Micor/nano-optics Conference (AOM۲۰۱۰), GuangZhou, China, pp.‎ ۱-۴, Dec.‎ ۳-۶, ۲۰۱۰.‎
34. A.‎ Taher Rahmati, N.‎ Nozhat, and N.‎ Granpayeh, “Photonic crystal switches based on nonlinear directional couplers,” ۱۸th Iranian Conference on Electrical Engineering (ICEE۲۰۱۰), Isfahan, pp.‎ ۵۹-۶۲, May ۱۱-۱۳, ۲۰۱۰.‎
35. N.‎ Nozhat, A.‎ Taher Rahmati, and N.‎ Granpayeh, “An all optical switch based on nonlinear photonic crystal microcavities,” Progress in Electromagnetics Research Symposium (PIERS ۲۰۰۹), Moscow, Russia, pp.‎ ۱۵۷۸-۱۵۸۱, Aug.‎ ۱۸-۲۱, ۲۰۰۹.‎
36. N.‎ Nozhat and N.‎ Granpayeh, “Analysis and simulation of a channel add-drop filter composed of two dimensional photonic crystal,” Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE ۲۰۰۷), China, pp.‎ ۵۳۴-۵۳۶, Oct.‎ ۱۷-۱۹, ۲۰۰۷.‎
37. N.‎ Nozhat and N.‎ Granpayeh, “Analysis and simulation of a photonic crystal channel add-drop filter,” International Conference on Optical Communication and Networks (ICOCN۲۰۰۷), Islamabad, Pakistan, pp.‎ ۷۸-۸۱, Aug.‎ ۷-۹, ۲۰۰۷.‎

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