صفحه شخصی دکتر نجمه نزهت

1. مخابرات نوری
2. نانواپتیک و نانوفوتونیک
3. ادوات پلاسمونیک
4. نور غیرخطی
5. گرافن و مواد تنظیم‌پذیر
6. کریستال فوتونی
7. متامتریال

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 ارائه‌شده 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.‎

رساله‌ها و پایان‌نامه‌‌ها

چاپ کتاب

1. N.‎ Granpayeh, N.‎ Nozhat, and A.‎ Mowla, Raman and Erbium doped optical fiber amplifiers, K.‎ N.‎ Toosi University of Technology Pub.‎, Tehran, Iran, ۲۰۱۵.‎
2. M.‎ Fazaelifar, A.‎ Pishini, M.‎ Mahjoub, S.‎ Monfared, and N.‎ Nozhat, Planning and optimization of GSM radio network, Kavosh Pardaz Co.‎, Tehran, Iran, ۲۰۰۹.‎

1. معاون دانشکده مهندسی برق
2. مدیر گروه مخابرات
3. مشاور رئیس دانشگاه در امور بانوان
4. عضو کمیته آموزش IEEE بخش ایران
5. رئیس کمیته بسندگی آزمون زبان
6. عضو کمیته ناظر بر نشریات دانشگاهی