Amit Halder
Higher Degree by Research Candidate
School of Physics, Chemistry and Earth Sciences
Faculty of Sciences, Engineering and Technology
Amit Halder is a PhD student in the School of Physics, Chemistry and Earth Sciences at the University of Adelaide. He worked as an Assistant Professor and Coordinator in the Department of Electrical and Electronic Engineering at World University of Bangladesh (WUB) until November 2024. He joined WUB on February 11, 2017. He earned his B.Sc. (Engg.) in Electronics and Telecommunication Engineering from Rajshahi University of Engineering & Technology (RUET) in Rajshahi, Bangladesh. He earned his M.Sc. (Engg.) in Electrical and Electronic Engineering from Rajshahi University of Engineering and Technology (RUET) in Rajshahi, Bangladesh. He has published noteworthy articles in IEEE conferences and reputable journals. He has also been serving as a reviewer for the SPIE journal Nanophotonics and Optical Engineering since 2020. His primary research interests include optoelectronics, photonics, optical sensors, and underwater sensors.
My research is focused on the design, fabrication, and characterization of polymer-based microstructured fibers optimized for low-loss transmission in the THz region. This work, conducted under an ARC Grant at the University of Adelaide, contributes to the development of advanced waveguides for applications in communication, sensing, and imaging.
My previous studies have emphasized the development of dispersion-compensating, highly birefringent, and nonlinear photonic crystal fibers (PCFs) for optical communication across E, S, C, and L bands. Theoretical modeling using finite element methods and experimental validation has been utilized to explore advanced photonic and optoelectronic technologies.
My published work includes journal articles and conference proceedings, addressing topics such as nonlinear PCFs, dispersion control, and optical sensing. Research efforts also extend to underwater sensors, THz fiber technologies, and their integration into diverse applications.
A comprehensive list of publications can be found at Google Scholar.
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Appointments
Date Position Institution name 2017 - 2024 Assistant Professor World University of Bangladesh -
Language Competencies
Language Competency Bengali Can read, write, speak, understand spoken and peer review English Can read, write, speak, understand spoken and peer review -
Education
Date Institution name Country Title 2016 - 2022 Rajshahi University of Engineering and Technology Bangladesh M. Sc. 2011 - 2015 Rajshahi University of Engineering and Technology Bangladesh B. Sc. -
Research Interests
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Journals
Year Citation 2024 Halder, A., Arafat, Y., Forkan, M., Kumar, R. D., Ahsan, M., Ahmed, I., & Anower, M. S. (2024). Numerical analysis of microstructured optical fibers based on flint glass for ultra-high nonlinearity, low loss, and broadband dispersion compensation across telecom bands. Results in Optics, 16, 10 pages.
2024 Halder, A., Arafat, Y., Ahmed, I., Ahsan, M., Siddiquee, Z., Tanshen, R., & Anower, S. (2024). FEM analysis of a highly birefringent modified slotted core circular PCF for endlessly single mode operation across <i>E</i> to <i>L</i> telecom bands. JOURNAL OF THE EUROPEAN OPTICAL SOCIETY-RAPID PUBLICATIONS, 20(2), 11 pages.
2024 Halder, A., & Anower, M. S. (2024). Design and numerical analysis of a modified core hexa–deca photonic crystal fiber for highly negative dispersion and birefringence control in optical communication bands. Scientific Reports, 14(1), 16 pages.
2024 Halder, A., Khan, N. H. N., Tanshen, M. R., & Anower, M. S. (2024). Ultra-low-loss bend-insensitive modified hexagonal porous core terahertz fiber. Optical Engineering, 63(10), 15 pages.
2023 Halder, A., Tanshen, M. R., Akter, M. S., & Hossain, M. A. (2023). Design of Highly Birefringence and Nonlinear Modified Honeycomb Lattice Photonic Crystal Fiber (MHL-PCF) for Broadband Dispersion Compensation in E+S+C+L Communication Bands. Engineering Proceedings, 56(1), 19.
Scopus32023 Gomes, A. S., Halder, A., & Hossain, M. A. (2023). The Effect of Kronecker Tensor Product Values on ECG Rates: A Study on Savitzky-Golay Filtering Techniques for Denoising ECG Signals. Asian Journal of Applied Science and Technology, 07(01), 158-166.
2023 Halder, A., Akter, M. N., Roy, J., Tanshen, M. R., & Hossain, M. A. (2023). A MATLAB Simulink Study on the Performance of QAM Modulation Scheme in AWGN, Rayleigh, and Rician Fading Channels: BER Analysis. Irish Interdisciplinary Journal of Science & Research, 07(02), 34-41.
2023 Halder, A., Tanshen, M. R., Ahammad Ali, K., Juthy, F. K., Ali, M. Y., & Jahan, N. (2023). Performance Analysis of 16-FSK Modulator and Demodulator Over Rician Fading Channel by Varying Channel Parameters. Asian Journal of Basic Science & Research, 05(02), 97-104.
2023 Halder, A., Emon, W., Anower, M. S., Tanshen, M. R., Forkan, M., & Shajib, M. S. U. (2023). Design and Numerical Analysis of Ultra-High Negative Dispersion, Highly Birefringent Nonlinear Single Mode Core-Tune Photonic Crystal Fiber (CT-PCF) over Communication Bands. Optics and Photonics Journal, 13(10), 227-242.
2023 Halder, A., Ara Khandaker, M. R., Scholastica Gomes, A., Tanshen, M. R., & Rahman, M. A. (2023). Performance Analysis of FIR Adaptive Filter Algorithms for Denoising Adult ECG Signals: A Comparative Study. Middle East Journal of Applied Science & Technology, 06(02), 131-143.
2020 Halder, A. (2020). Slope matched highly birefringent hybrid dispersion compensating fiber over telecommunication bands with low confinement loss. Journal of Optics (India), 49(2), 187-195.
Scopus42019 Halder, A., & Anower, M. S. (2019). Relative dispersion slope matched highly birefringent and highly nonlinear dispersion compensating hybrid photonic crystal fiber. Photonics and Nanostructures - Fundamentals and Applications, 35, 6 pages.
Scopus9- Halder, A., Tanshen, M. R., Hossain, M. A., Akter, M. S., & Sikdar, M. A. (n.d.). Tailored Dispersion and Nonlinear Effects in Flint Glass Honeycomb PCF for Optical Communication. Journal of Optics and Photonics Research, 1(1), 43-49.
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Conference Papers
Year Citation 2023 Halder, A., Anower, M. S., Emon, W., Tanshen, M. R., & Shajib, M. S. U. (2023). Design and Finite Element Analysis of a Single-Mode Modified Circular Microstructured Optical Fiber for High Negative Dispersion and High Nonlinearity across e to L Communication Bands. In 2023 26th International Conference on Computer and Information Technology, ICCIT 2023 (pp. 1-5). IEEE.
DOI Scopus42023 Halder, A., Emon, W., Anower, M. S., Tanshen, M. R., Shajib, M. S. U., & Hossain, S. A. (2023). Design of Ultra-High Nonlinear Flint Glass Based Photonic Crystal Fiber with High Negative Dispersion over Telecom Bands. In 5th IEEE International Conference on Telecommunications and Photonics, ICTP 2023 - e-Proceedings (pp. 1-5). IEEE.
DOI Scopus32017 Biswas, S. K., Rakibul Islam, S. M., Ahmed, M., Halder, A., Md Islam, R., & Hossain, M. (2017). Analytical model for coupling Whispering gallery mode silica microcavity for sensing application. In 2nd International Conference on Electrical and Electronic Engineering, ICEEE 2017 (pp. 1-4). IEEE.
DOI2017 Biswas, S. K., Al Noman, A., Islam, M. R., Islam, S. M. R., Opu, M. T. I., & Ahmed, F. (2017). Analytical model for coupling whisperring gallery mode spherical microresonator for sensing application. In 2nd IEEE International Conference on Telecommunications and Photonics, ICTP 2017 Vol. 2017-December (pp. 97-101). BANGLADESH, Rajshahi: IEEE.
DOI2017 Hossain, S. A., Ali, M. F., Akif, M. I., Islam, R., Paul, A. K., & Halder, A. (2017). A determination process of the number and distance of sea objects using CHIRP signal in a three sensors based underwater network. In 2016 3rd International Conference on Electrical Engineering and Information and Communication Technology, iCEEiCT 2016 (pp. 6 pages). BANGLADESH, Military Inst Sci & Technol, Dhaka: IEEE.
DOI Scopus42017 Dash, B. K., Chowdhury, S. A. H., Kamal, A. H. M. M., Anower, M. S., & Halder, A. (2017). Underwater network cardinality estimation using cross-correlation: Effect of unequal sensor spacing. In IWCI 2016 - 2016 International Workshop on Computational Intelligence (pp. 181-186). BANGLADESH, Jahangirnagar Univ, Dept Comp Sci & Engn, Dhaka: IEEE.
DOI Scopus22016 Halder, A. (2016). Highly birefringent photonic crystal fiber for dispersion compensation over E+S+C+L communication bands. In 2016 5th International Conference on Informatics, Electronics and Vision, ICIEV 2016 (pp. 1099-1103). BANGLADESH, Univ Dhaka, Dhaka: IEEE.
DOI Scopus22016 Hossain, S. A., Anower, M. S., & Halder, A. (2016). A cross-correlation based signal processing approach to determine number and distance of objects in the sea using CHIRP signal. In ICEEE 2015 - 1st International Conference on Electrical and Electronic Engineering (pp. 177-180). BANGLADESH, Dept Elect Elect Engn Rajshahi Univ Engn Tech, Rajshahi: IEEE.
DOI Scopus10- Forkan, M., Halder, A., Ripa, M. N. N., & Tanshen, M. R. (n.d.). Performance Analysis of BPSK & 8-FSK Modulation Technique through AWGN Channel in Wireless Communication System. In AIJR Proceedings (pp. 52-59). AIJR Publisher.
DOI
Australian Research Council (ARC) Grant-Funded Scholarship
World University of Bangladesh (WUB) Research Grant
Project ID: WUB/2022/P1/032
Project Duration: 2022 - 2023
World University of Bangladesh, Dhaka-1230, Bangladesh
Assistant Professor, Department of Electrical and Electronic Engineering (May 2023– November 2024)
Sr. Lecturer, Department of Electrical and Electronic Engineering (November 2022 – May 2023)
Lecturer, Department of Electrical and Electronic Engineering (February 2017 – November 2022)
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Memberships
Date Role Membership Country 2024 - ongoing Member Institute of Photonics and Advanced Sciences Australia
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