Staff Directory


Iskandar Bin Bahari

Academic Qualification

  • Ph.D in Quantum Information ( Physics) - Doctor of Philosophy, University of York

Iskandar Bin Bahari (Dr.)

Assistant Professor
IIUM Kuantan Campus

KULLIYYAH OF SCIENCE

Other's position:

Deputy Dean, Kulliyyah of Science


iskandarbahari@iium.edu.my
5172


Area of Specialisation


  • Natural Science ~ Mathematical Sciences ~ Mathematics and Statistics for Science and Engineering ~ Quantum Theory - Qantum Information


Teaching Responsibilities


CALCULUS 2020/2021 2019/2020
LINEAR ALGEBRA 2022/2023 2018/2019
MATHEMATICAL ANALYSIS 2023/2024 2022/2023 2021/2022 2020/2021 2019/2020 2018/2019
PHYSICS PROJECT 2021/2022 2020/2021
QUANTUM MECHANICS 2019/2020 2018/2019
VECTOR ANALYSIS 2023/2024 2022/2023 2021/2022 2020/2021 2019/2020 2018/2019


Research Projects


Completed
2018 - 2023 Multiple qubits and composite spin interacting system with decoherence
On-Going
2022 - Present Sci-ON
2019 - Present Autonomous Quantum Thermal Machine for Quantum Steering
2019 - Present Entropic Bounds in Estimating Quantum Unitary Encoding and Secure Key Distribution
2019 - Present Entanglement annihilation and entanglement breaking in qubits-composite spin interaction system


Publications


Article

2022 Integrating vernier spectrum with fano resonance for high sensitivity of an all-optical sensor. Journal of Computational Electronics, () pp. 1-12
2013 Experimental two way quantum key distribution with weak+vacuum decoy state. Malaysian Journal of Mathematical Sciences, 7(S) (1) pp. 49-57
2012 Implementation of two way Quantum Key Distribution protocol with decoy state. Optics Communications, 285 (5) pp. 842-845
2011 Decoy states and two way quantum key distribution schemes. Optics Communications, 284 (2) pp. 697-702
2009 Quantum key distribution in terms of the Greenberger-Horne-Zeilinger state: multi-key generation . Laser Physics (International Journal), 20 (5) pp. 1-21
Conference or Workshop Item

2012 Erroneous signal detection and secure distance improvement in two way Quantum Key Distribution protocol with decoy state. In: 2012 IEEE 3rd International Conference on Photonics,