Faculty Profile

Dr Muhammed Zafar Iqbal

Professor

Contact Information

  • Office Address: Professor Institute of Shahjalal University of Science and Technology, Sylhet-3114, Bangladesh
  • Phone:
  • Email: mzi@sust.edu

Education

  • Ph. D (1982). in Experimental Physics, University of Washington, Seattle, USA
  • MSc. (1974) in Theoritical Physics, University of Dhaka
  • BSc. (Hon's- 1973) in Physics, University of Dhaka

Research Interests

  • Bangla OCR
  • Bangla Speech to Text
  • Bangla Natural Language Processing
  • WDM Network
  • Optical Communication
  • GPON
  • Non-Linear Optics
  • Robotics

Journal Publish

  • 1. Ujjal Kumar Bhowmik, M. Zafar Iqbal, Reza R. Adhami; Mitigation Motion Artifacts in FDK based 3D Cone-beam Brain Imaging System using Markers; Central European Journal of Engineering, May 2012
  • 2. Transformational Generative Grammar for Various Types of Bengali Sentences. M. Reza Selim and M. Z.Iqbal; SUST Studies of SUST; Vol. 12; March, 2010
  • 3. A Bangla Spell Checking System. M. S. Rahman, C. K. Karmakar, S. M. S. Shams and M. Z. Iqbal, SUST Studies of SUST, Vol. 10, Sep. 2008
  • 4. Bangla Sorting Algorithm – A Linguistic Approach. M. S. Rahman and M. Z. Iqbal; SUST Studies of SUST, Vol.8, Dec, 2007
  • 5. Tunable Four Wavelength DFB Laser Array with 10 Gb/s Sped and 5 nm Continuous Tuning Range, L. Wang, Y. Lo, M. Iqbal, A. S. Gozdoz, P. S. D. Lin, R. Bhat and H. Shirkomann, Accepted for Optical Fiber Communication 1992. TM-ARH-019933, 8/29,1991
  • 6. Integrated Four-Wavelength DFB laser array with 10 Gb/s Speed and 5 om continuous Tuning Range. L. A. Wang, y. H. Lo, A. S. Gozdz, P. S. D. Lin, M. Z. Iqbal and R. Bhat, lEE Photon. Technol. Lett, vol. 4, pp 318-320, April 1992
  • 7. Multigigabit/s operation of 16 wavelength Vertical-Cavity Surface Emitting Laser Array, M.W. Maeda, C.Chang-Hasnain, A. Von Lehman, H. Izadpanah, C. Lin, M. Z. Iqbal, L. Florez and J. Harbison. Photon. Tech.Lett. Vol. 3, No 10, pp 863, 1991
  • 8. Low Threshold and high speed 1.5 urn strained layer multiple quantum well four wavelength distributed feedback laser arrays. C. E. Zah, K. W. Cheung, S. G. Menocal, R. Bhat, M. Z. Iqbal, F. Favier, N. C. Andreadakis, A.S. Gozdoz, M. A. Koza and T. P. Lee, OFC 91, San Diego, Elect. Lett.,Vol. 27, NO 12, pp 1040-1041, 1991
  • 9. New Limit on Neutrinoless Double Beta Decay in Xenon 136 with a time projection Chamber. H. T. Wong, F.Boehm, P. Fisher, K. Gabathuler, H. E. Henrikson, D. A. Imel, M . Z. Iqbal, V. Jorgens, L. W. Mitchell, B.M. O'Callaghan-Hay, J. Thomas, M. Treichel, J. C. Vuilleurnier and J. L. Vuilleurnier, Phys. Rev. Lett., Vol. 67, No 10, pp 1218, 1991
  • 10. Performance of Directly Modulated DFB lasers in 10 Gb/s ASK, FSK and DPSK lightwave systems, R. S. Vodhanel, A. F. Elrefai, M. Z. Iqbal, R. E. Wagner and J. L. Gimlett, J. Lightwave Technol, vol. 8, p 1379, 1386, 1990
  • 11. Observation of Equivalent Rayleigh Scattering MiITors in Lightwave systems with optical amplifiers., J. L.Gimlett, M. Z. Iqbal, N. K. Cheung, A. Righetti, F. Fontanna and G. Grasso, IEEE Photonic Tech. Lett., Vol 2, No 3, pp 211-213, 1990
  • 12. Impact of Multiple Reflection Noise in Gbit/sec Lightwave Systems with Optical Fiber Amplifiers, J. L. Gimlett, M. Z. Iqbal, L. Curtis, and N. K. Cheung. Elect. Lett. 25, p1393, 1989
  • 13. Monte Carlo Simulation of Electron Trajectories in High Pressure Xenon, M. Z. Iqbal, B. M. G. OCallaghan and H. T. Wong, Nuel. Inst. Meth. A253 (1987) 278
  • 14. Study of Prototype Xenon TPC, M. Z. Iqbal, B. G. OCallaghan, F. Boehm, Nucl. Inst. Meth. A243 (1986) 459
  • 15. A Technique for Measuring Parity non Conservation in Hydrogenic Atoms, E. G. Adelberger, T. A. Trainor, E. N. Fortson, T. E. Chupp, M. Z. Iqbal and H. E. Swanson, Nucl. Inst. Meth. 179 (1981)181
  • 16. Patent No: 5550818 Title: System for wavelength division multiplexing/asynchronous transfer mode switching for network communication
  • 17. Patent No: 6226111 Title: Inter-ring cross-connect for survivable multi-wavelength optical communication networks
  • 18. Patent No: 5392154 Title: Self-regulating multi wave length optical amplifier module for scalable lightwave communications systems
  • 19. The Electronics for the High Pressure Xenon Gas Time Projection Chamber
  • 20. An 11Gb/s optical transmission experiment using a 1540 om DFB laser with non-return-to-zero modulation and a PIN/HEMT receiver
  • 21. The Effect of Pulse Shaping on the Transmission Performance of 11 Gbit/s Lightwave Systems
  • 22. Effects of Gain Ripples in Semiconductor Optical Amplifiers on Very-High-Speed Lightwave Systems
  • 23. Low threshold Four Wavelength DFB Laser Array for multigigabit/s High -Density WDM Systems Applications
  • 24. A Low Cost Pulse Shape Digitizer for a Time Projection Chamber
  • 25. An 11 Gbit/sec 260 kIn Transmission Experiment Using a Directly Modulated 1536 om DFB Laser with Two Er-Doped Fiber Amplifiers and Clock Recovery
  • 26. 10 to 20 Gbit/s modulation performance of 1.5 urn distributed feedback lasers for frequency-shift-keying systems
  • 27. An 11 Gb/s 151 kIn Transmission Experiment Employing a 1480 nm Pumped Erbium Doped in-line Fiber Amplifier
  • 28. Design and Construction of a High Pressure Xenon Gas TPC
  • 29. Multi gigabit/sec 1.5 urn 1/4 lambda shifted DFB OEIC Transmitter and its use in transmission experimes

Awards & Recognition

  • Quazi Mahbubulla Zebunnesa Award 2002
  • Khalekdad Chowdhury Literary Award 1410
  • Sheltech Liteary Award 2003
  • Uro Child Literary Award 2004
  • Md. Mudabber-Husne ara literary Award 2005
  • Marcantile Bank Ltd. Award 2005
  • Bangla Academy Literary Award 2005
  • One of the 10 living Eminent Bengali 2005 (Nominated by on line voting)
  • American Alimony Association Award 2005
  • Dhaka University Alimony Association Award 2005
  • Naittamoncho Award ’05, Naittamoncho, Sylhet
  • Uro Child Literary Award 2006
  • Shishu Academy Agrani Bank Shishu Shahitto Award 1408 Era
  • Deyan Golam Mortoza Shriti Award 2009 (Hobigonj)

Conference

  • 1. 10 Gbits/s Direct Differential Phase Shift Keying Modulation and Direct Detection Experiment, R. S. Vodhanel, M. Z. Iqbal, J. L. Gimlett and L. Curtis, CLEO 90, Anaheim, California, 1990
  • 2. 10 Gb/s Direct Detection Lightwave Technology
  • 3. 10 Gbits/s DFB MODFET Transmitter OEICs for High Speed Transmission and Optical Interconnects.
  • 4. An 11 Gbit/sec 260 km Transmission Experiment Using a Directly Modulated 1536 om DFB Laser with Two Er-Doped Fiber Amplifiers and Clock Recovery
  • 5. Multiwavelength Dispersion Compensation for 1550 om Transmission at 2.5 and 10 Gb/s over 1310 om¬Optimized Single Mode Fibers
  • 6. Effects of Gain Ripples in Semiconductor Optical Amplifiers on Very-High-Speed Lightwave Systems
  • 7. A 94 km 11Gb/s NRZ transmission experiment using a 1540 om DFB laser with an optical amplifier and a pin/HEMT receiver
  • 8. An OC-48 SONET Optical Transmission System for Gigabit Computer Networks
  • 9. A 2.5 Gb/s SONET DataIink with STS-l2c Inputs and HIPPI Interface for Gigabit Computer Networks.
  • 10. A Xenon Time Projection Chamber for Double Beta Decay
  • 11. Real Time Data Acquisition for a Time Projection Chamber Using a High Speed DEC LSI to UNIX UDP¬TCP/IP Interface
  • 12. 10 Gbits/s Direct Differential Phase Shift Keying Modulation and Direct Detection Experiment
  • 13. Low threshold and high speed 1.5 urn strained layer Multiple quantum we1l4-wavelength Distributed Feed Back laser
  • 14. A Time Projection Chamber for Observing Double Beta Decay in 136Xe
  • 15. A Time Projection Chamber for Double Beta Decay in Xe 136: A Progress Report

Teaching

  • Discrete Mathematics
  • Fiber Optics
  • Digital Logic Design
  • Electrical Circuit
  • Electronics Devices
  • Numerical Analysis
  • Semi Conductor
  • Electromagnetic Fields and Wave

Graduate Supervision

  • Phd 3 (on going)
  • M.Sc(Thesis) 5 Awarded