Curriculum Vitae

DR. SITI NABILA BINTI AIDIT

Senior Lecturer
  • Physics Division
    Centre for Foundation Studies in Science
  • 0379672326

ACADEMIC QUALIFICATION

  • PHD (FOTONIK), (Teknologi Fotonik)
    Universiti Malaya (UM)
  • BSC (HONS) PHYSICS, (Fizik)
    Universiti Teknologi Malaysia (UTM)

ADMINISTRATIVE DUTIES

  • Task Force Member
    18 Jul 2022 - 31 Jul 2023 (University Malaya)

MEMBERSHIPS

  • OPTICA, USA, MEMBER
    2016 to 2022 (International)

PUBLICATIONS

Article in Journal
WoS
  1. Aidit, S. N.; Rezali, F. A. M.; Nor, N. H. M.; Yusoff, N.; Ma, Li-Ya; Hatta, S. F. W. M.; Soin, N. (2023). Hydrothermal synthesis of zinc oxide/PEDOT:PSS composite for flexible temperature sensor application, FLEXIBLE AND PRINTED ELECTRONICS. 8(2). doi:10.1088/2058-8585/acd06e
  2. Ahmad, H., Azmy, N. F., Yusoff, N., Reduan, S. A., Aidit, S. N., Bayang, L., & Samion, M. Z. (2021). MoTe2-PVA as saturable absorber for passively Q-switched thulium-doped fluoride and erbium-doped fiber laser. Optik, 243, 14. doi: 10.1016/j.ijleo.2021.167157
Others
  1. Ahmad, H., Aidit, S. N., & Samion, M. Z. (2020). Multi-and Dual-wavelength Thulium-doped Fluoride Fiber Laser Assisted by Four-wave Mixing in S-band Region. Infrared Physics & Technology, 103485.
  2. Ahmad, H., Aidit, S. N., Yusoff, N., Ismail, N. N., Ismail, M. F., Zamzuri, A. K., & Thambiratnam, K. (2020). All-fiberized, mode-locked laser at 1.95 m using copper chalcogenide Cu2Te-based evanescent field interaction. Optics Communications, 126329.
  3. Ahmad, H., Azmy, N. F., Aidit, S. N., & Zulkifli, M. Z. (2020). Stable multiwavelength semiconductor optical amplifier based fiber laser using a 2 mode interferometer. Microwave and Optical Technology Letters, 62(10), 3363-3368.
  4. Ahmad, H., Ismail, N. N., Aidit, S. N., Bayang, L., & Yusoff, N. (2020). Q-switched tunable ytterbium-doped fiber laser with molybdenum ditelluride-based saturable absorber. Optical Engineering, 59(5), 056110.
  5. Ahmad, H., Ismail, N. N., Aidit, S. N., Yusoff, N., & Zulkifli, M. Z. (2020). Tunable S+/S band Q-switched thulium-doped fluoride fiber laser using tungsten ditelluride (WTe2). Results in Physics, 103124.
  6. Ahmad, H., Ramli, R., Yusoff, N., Samion, M. Z., Ismail, M. F., Bayang, L., ... & Thambiratnam, K. (2020). 155 nm-wideband and tunable q-switched fiber laser using an MXene Ti3C2TX coated microfiber based saturable absorber. Laser Physics Letters, 17(8), 085103.
  7. Ahmad, H; Ramli, R; Kamely, AA; Samion, MZ; Yusoff, N; Bayang, L; Aidit, SN; Thambiratnam, K 2020. GeSe Evanescent Field Saturable Absorber for Mode-Locking in a Thulium/Holmium Fiber Laser. IEEE JOURNAL OF QUANTUM ELECTRONICS
  8. Ahmad, H; Aidit, SN; Ooi, SI; Tiu, ZC 2019. Mode-locked thulium-fluoride fibre laser with an adjustable pulse width using a nonlinear optical loop mirror. QUANTUM ELECTRONICS.  (Tier 3, Impact Factor = 1.151)
  9. Ahmad, H; Aidit, SN; Thambiratnam, K 2019. 85 nm wide-band tunable erbium doped fiber laser using a gallium selenide (GaSe)-based saturable absorber for passive optical modulation. LASER PHYSICS LETTERS.  (Tier 2, Impact Factor = 2.235)
  10. Ahmad, H; Aidit, SN; Tiu, ZC; Ooi, SI 2019. Application of MoWS2-rGO/PVA thin film as all-fiber pulse and amplitude modulators in the O-band region. OPTICAL FIBER TECHNOLOGY.  (Tier 3, Impact Factor = 1.350)
  11. Ahmad, H; Aidit, SN; Tiu, ZC 2019. Dissipative soliton resonance in a passively mode-locked praseodymium fiber laser. OPTICS AND LASER TECHNOLOGY.  (Tier 2, Impact Factor = 2.503)
  12. Ahmad, H; Ismail, MF; Aidit, SN 2019. Optically Modulated Tunable O-Band Praseodymium-Doped Fluoride Fiber Laser Utilizing Multi-Walled Carbon Nanotube Saturable Absorber. CHINESE PHYSICS LETTERS.  (Tier 4, Impact Factor = 0.847)
  13. Ahmad, H; Reduan, SA; Aidit, SN; Yusoff, N; Maah, MJ; Ismail, MF; Tiu, ZC 2019. Ternary MoWSe2 alloy saturable absorber for passively Q-switched Yb-, Er- and Tm-doped fiber laser. OPTICS COMMUNICATIONS.  (Tier 2, Impact Factor = 1.887)
  14. Ahmad, H; Reduan, SA; Yusoff, N; Ismail, MF; Aidit, SN 2019. Mode-locked pulse generation in erbium-doped fiber laser by evanescent field interaction with reduced graphene oxide-titanium dioxide nanohybrid. OPTICS AND LASER TECHNOLOGY.  (Tier 2, Impact Factor = 2.503)
  15. Ahmad, H; Aidit, SN; Mohanraj, J; Sivabalan, S; Thambiratnam, K; Ooi, SI; Tiu, ZC 2018. Mixed Transition Metal Dichalcogenide as Saturable Absorber in Ytterbium, Praseodymium, and Erbium Fiber Laser. IEEE JOURNAL OF QUANTUM ELECTRONICS
  16. Ahmad, H; Aidit, SN; Ooi, SI; Tiu, ZC 2018. All-fiber, wavelength-tunable ultrafast praseodymium fiber laser. CHINESE OPTICS LETTERS
  17. Ahmad, H; Aidit, SN; Ooi, SI; Tiu, ZC 2018. Supercontinuum Micrometer-Displacement Sensor Using Single-Multi-Air-Gap-Single Mode Fiber as Sensing Probe. IEEE SENSORS JOURNAL
  18. Ahmad, H; Aidit, SN; Ooi, SI; Tiu, ZC 2018. Tunable passively Q-switched erbium -doped fiber laser with Chitosan/MoS2 saturable absorber. OPTICS AND LASER TECHNOLOGY
  19. Ahmad, H; Aidit, SN; Ooi, SI; Tiu, ZC 2018. Tunable passively Q-switched ytterbium-doped fiber laser with mechanically exfoliated GaSe saturable absorber. CHINESE OPTICS LETTERS
  20. Ahmad, H; Aidit, SN; Ooi, SI; Tiu, ZC 2018. Wide-band, passively Q-switched Yb- and Tm-doped fibre laser using WSSe saturable absorber. JOURNAL OF MODERN OPTICS
  21. Ahmad, H; Aidit, SN; Tiu, ZC 2018. Multi-wavelength Praseodymium fiber laser using stimulated Brillouin scattering. OPTICS AND LASER TECHNOLOGY
  22. Ahmad, H; Aidit, SN; Yusoff, N 2018. Bismuth oxide nanoflakes for passive Q-switching in a C-band erbium doped fiber laser. INFRARED PHYSICS TECHNOLOGY
  23. Ahmad, H; Samion, MZ; Sharbirin, AS; Norizan, SF; Aidit, SN; Ismail, MF 2018. Graphene-PVA saturable absorber for generation of a wavelength-tunable passively Q-switched thulium-doped fiber laser in 2.0 mu m. LASER PHYSICS
  24. Amiri, IS; Ariannejad, MM; Tiu, ZC; Ooi, SI; Aidit, SN; Alizadeh, F; Yupapin, P 2018. A widely tunable dual-wavelength based on a microring resonator filter device. LASER PHYSICS
  25. Ahmad, H; Aidit, SN; Hassan, NA; Ooi, SI; Tiu, ZC 2017. Tunable mode-locked laser with micro-air gap cavity. OPTICS AND LASER TECHNOLOGY
  26. Ahmad, H; Aidit, SN; Ooi, SI; Rezayi, M; Tiu, ZC 2017. Passively Q-switched and mode-locked erbium doped fiber laser based on N-doped graphene saturable absorber. LASER PHYSICS
  27. Ahmad, H; Aidit, SN; Thambiratnam, K; Tiu, ZC 2017. Passively Q-switched O-band praseodymium doped fluoride fibre laser with PVA/graphene based SA. ELECTRONICS LETTERS
  28. Ahmad, H; Aidit, SN; Tiu, ZC; Ismail, MF; Suthaskumar, M; Harun, SW 2017. Application of MoS2 thin film in multi-wavelength and Q-switched EDFL. JOURNAL OF MODERN OPTICS
  29. Ahmad, H; Hassan, NA; Aidit, SN; Ooi, SI; Harun, SW; Tiu, ZC 2017. Q-switching pulse generation using black phosphorus tape saturable absorber. OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS
  30. Ahmad, H; Reduan, SA; Aidit, SN; Tiu, ZC 2017. Generation of passively Q-switched fiber laser at 1 mu m by using MoSSe as a saturable absorber. CHINESE OPTICS LETTERS
  31. Ahmad, H., Aidit, S. N., Hassan, N. A., Ismail, M. F., Tiu, Z. C. 2016. Generation of mode-locked erbium-doped fiber laser using MoSe2 as saturable absorber. Optical Engineering.  (Tier 3, Impact Factor = 0.984)
  32. Ahmad, H., Hassan, N. A., Aidit, S. N., Tiu, Z. C. 2016. Generation of tunable multi-wavelength EDFL by using graphene thin film as nonlinear medium and stabilizer. Optics and Laser Technology.  (Tier 2, Impact Factor = 1.879)
  33. Amiri, I. S., Ahmad, H., Ghasemi, M., Ismail, M. F., Aidit, S. N., Soltanian, M. R. K., Nafarizal, N. 2016. Silicon-based microring resonators for multi-solitons generation for THz communication. Optical and Quantum Electronics.  (Tier 2, Impact Factor = 1.290)
  34. Tiu, Z. C., Aidit, S. N., Hassan, N. A., Bin Ismail, M. F., Ahmad, H. 2016. Single and Double Brillouin Frequency Spacing Multi-Wavelength Brillouin Erbium Fiber Laser With Micro-Air Gap Cavity. Ieee Journal of Quantum Electronics.  (Tier 2, Impact Factor = 1.843)
Article in Proceeding
  1. Aidit, S. N., Ooi, S. I., Hassan, N. A., Ahmad, H., & Tiu, Z. C. (2017, June). Tunable microwave generation using dual-wavelength Brillouin O-band fiber laser. In IOP Conference Series. Materials Science and Engineering (Online) (Vol. 210, No. 1).