Staff Directory

Siti Fatimah Binti Norizan

Academic Qualification

  • Doctor of Philosophy in Physics (Photonics) - Doctor of Philosophy, Universiti Malaya (UM)
  • Sains - Bachelor Degree, Universiti Malaya (UM)

Siti Fatimah Binti Norizan (Dr.)

Assistant Professor
IIUM Kuantan Campus


Expert Profile

Siti Fatimah Binti Norizan obtained his BSc (Hon) and Ph.D. degrees from the University of Malaya in Physics (Computer and Electronics). Her Ph.D. research is mainly in the optical fiber laser in various communication transmission windows. Other works that she has the interest in researching are nonlinear optics and optical fiber sensor. She publishes more than 15 articles in the international cited journals during her studies. Upon completion of her Ph.D., she continues her career as in academia at the International Islamic University of Malaysia, Kuantan, Pahang as the senior lecturer.

Area of Specialisation

  • Natural Science ~ Physical Sciences ~ Acoustics and Optical Physics ~ Opto-Acoustic and Opto-Thermal Phenomena - OPTICAL FIBER SENSOR
  • Natural Science ~ Physical Sciences ~ Acoustics and Optical Physics ~ Fibre Optics and Waveguides (Including Communication Equipment) - OPTICAL FIBER COMMUNICATION

Teaching Responsibilities

CONCEPTS IN PHYSICS 2014/2015 2015/2016
ELECTRONICS 2019/2020 2020/2021 2017/2018 2018/2019 2016/2017 2021/2022
EXPERIMENTAL PHYSIC II 2020/2021 2014/2015 2016/2017 2019/2020 2018/2019 2015/2016 2017/2018
EXPERIMENTAL PHYSICS I 2017/2018 2015/2016 2014/2015 2016/2017
INTRODUCTION TO MICROPROCESSOR 2019/2020 2021/2022 2020/2021 2018/2019
NON-DESTRUCTIVE TESTING 2020/2021 2019/2020
OPTICS 2015/2016 2018/2019 2017/2018 2016/2017

Research Projects

2016 - 2020 High Efficiency Acousto-Optic Fiber Sensor Based On The Microfiber
2014 - 2017 Characterization Studies on the Optical Amplifier of the L-band Transmission Windows
2018 - Present Degenerated Inter-Modal Four-Wave Mixing (D-IM-FWM) in Few Modes Fiber (FMF) for Improved High Speed Optical Processing



2019 Science@IIUM Issue 2. SCIENCE@IIUM, (2) pp. 1-40
2018 Graphene-PVA saturable absorber for generation of a wavelength-tunable passively Q-switched thulium-doped fiber laser in 2.0 μm. Laser Physics, 28 (5) pp. 055105-1
2018 Narrow core standard single mode fiber for supercontinuum generation from graphene-based mode-locked pulses. Optik, 172 () pp. 347-352
2017 Gold cone metasurface MIC sensor with monolayer of graphene and multilayer of graphite. Plasmonics, 12 (2) pp. 497-508
2017 Tunable 2.0 μm Q-switched fiber laser using a silver nanoparticle based saturable absorber. Laser Physics, 27 (6) pp.
2016 A black phosphorus-based tunable Q-switched ytterbium fiber laser. Laser Physics Letter, 13 (9) pp. 095103-1-095103-7
2016 Multi dual-wavelength generation using InGaAsP/InP passive microring resonator with two sides apodized gratings. Materials Express, 6 (3) pp. 245-251
2011 Flat and compact switchable dual wavelength output at 1060 nm from ytterbium doped fiber laser with an AWG as a wavelength selector. Optics & Laser Technology, 43 (3) pp. 550-554
2011 Investigation of the effects of SOA locations in the linear cavity of an O-band Brillouin SOA fiber laser. Journal of Modern Optics, 58 (7) pp. 580-586
2011 Operation of Brillouin fiber laser in the O-band region as compared to that in the C-band region. Laser Physics, 21 (1) pp. 210-214
2011 S-band multiwavelength Brillouin Raman Fiber Laser. Optics Communications, 284 (20) pp. 4971-4974
2011 Tunable microwave photonic frequencies generation based on stimulated Brillouin scattering operating in the L-band region. Microwave and Optical Technology Letters, 53 (8) pp. 1710-1713
2010 Highly efficient and high output power of erbium doped fiber laser in a linear cavity configuration. Laser Physics, 20 (10) pp. 1894-1898
2009 Controllable wavelength channels for Multiwavelength Brillouin Bismuth/Erbium based Fibre Laser. Progress In Electromagnetics Research Letters, 9 () pp. 9-18
2009 Dual-wavelength erbium fiber laser in a simple ring cavity. Fiber and Integrated Optics, 28 (6) pp. 430-439
Conference or Workshop Item

2016 Tunable spacing of O-band Multiwavelength Brillouin fiber laser. In: 2015 International Conference on Automation, Cognitive Science, Optics, Micro Electro-Mechanical System, and Information Technology (ICACOMIT 2015),