Dr. Md. Rashedur Rahman
Professor

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Dr. Md. Rashedur Rahman is currently working as a Professor in the Physics Discipline at Khulna University, Khulna. In 2008, Dr. M R Rahman joined as a faculty in the Physics Discipline at Khulna University. He received his PhD degree from Jahangirnagar University in 2015 and gained his Master of Science and Bachelor of Science (Honors) degrees in Physics from Jahangirnagar University in 2000 and 2001, respectively. Professor M R Rahman's research area emphasizes materials science, materials synthesis & characterization, elemental analysis by ion beam interaction and radiation physics.

  • Doctor of Philosophy (Ph.D.):

Degree awarded from Jahangirnagar University.

  • Post Graduation:

M.Sc. in Physics, Thesis Group (First class) from Jahangirnagar University.

  • Graduation:

B.Sc. (Hons.) in Physics (First class) from Jahangirnagar University.

  • Higher Secondary Certificate:

H.S.C. in Science group (First division) from Carmichael College, Rangpur under Rajshahi Board.

  • Secondary School Certificate:

S.S.C. in Science group (First division) from Rangpur Zilla School, Rangpur under Rajshahi Board. 

Materials Science, Ion Beam Interaction Analysis

Current Research Project/Collaboration

SL Title Research Role Awarded Date Completion Date Funding Agency
1 Design of a Single Mode Step Index Optical Fiber Principal Investigator January 2010 December 2010 National
2 Simulation Study of Bending and Microbending Loss of an optical Fiber Principal Investigator June 2011 September 2012 National
3 Elemental Investigation of Some Bangladeshi Medicinal Plants Using Particle Induced X-ray Emission (PIXE) Analysis Co-Principal Investigator January 2013 May 2014 National
4 Study of Physical Properties of Alumina and Zirconia Based Ceramics Doped with MgO and TiO2 for Medical Applications Principal Investigator August 2017 December 2018 National
5 Synthesis and Characterization of Europium doped Nickel Zinc Cobalt Ferrite Co-Principal Investigator January 2021 December 2021 National
6 Synthesis, Characterization and Applications of Bulk and Nano Mg-Mn-Co Ferrites Co-Principal Investigator September 2023 Ongoing National

1)    Lecturer in Physics, Forestry and Wood Technology Discipline, Khulna University

From September 10, 2008 to June 30, 2009



2)   Lecturer, Physics Discipline, Khulna University

From July 01, 2009 to September 10, 2011


3)   Assistant Professor, Physics Discipline, Khulna University

From September 11, 2011 to January 23, 2016


4)   Associate Professor, Physics Discipline, Khulna University

From January 24, 2016 to January 23, 2020


5)   Professor, Physics Discipline, Khulna University

From January 24, 2020 to till now

No Data Available

Supervision

SL Title Degree Role Start Date End Date
1 Synthesis of Cobalt Ferrite-Reduced Graphene Oxide Nanocomposite as Magnetic Absorbant for Textile Dye Removal Masters Supervisor July 2018 December 2019
2 Hydrothermal Synthesis of Nickel Substituted Cobalt Ferrite@functionalized Multi-walled Carbon Nanotube Nanocomposite: Structural and Magnetic Characterization Masters Supervisor July 2019 December 2020
3 Synthesis and Characterization of Europium Doped Nickel Zinc Cobalt Ferrite Masters Supervisor July 2020 November 2021
4 Synthesis and Characterization of Graphene Oxide Reinforced Cobalt Doped Bismuth Titanate Nanocomposites Masters Supervisor July 2021 December 2022
5 Physical Properties of Alumina and Zirconia Based Ceramics Doped with MgO and TiO2 Masters Supervisor 01 January, 2015 24 October, 2016
6 Study of Microstructures, Mechanical and Electrical Properties of Al2O3-30 WT. % ZrO2 Composite Ceramics Doped with MgO Masters Supervisor 01 January, 2015 24 October, 2016
7 Dosimetry of Co-60 Teletherapy Units and Calibration of Some Ionization Chamber Masters Supervisor 01 January, 2015 24 October, 2016
8 Calibration and Standardization of Ionization Chamber and Absorbed Dose to Water for Photon Beam by Two IAEA Dosimetry Protocols Masters Supervisor 01 January, 2015 24 October, 2016
9 Simulation Study of Waveguide and Chromatic Dispersion in a Single Mode Stem Index Optical Fiber Masters Supervisor 01 January, 2015 24 October, 2016
10 Simulation Study of Pulse Broadening due to Material Dispersion and Bending Losses of a Single Mode Step Index Optical Fiber Masters Supervisor 01 January, 2015 24 October, 2016
11 Study of Structural, Electrical and Magnetic Properties of Europium Substituted Co-Zn Ferrites Masters Supervisor 01 January, 2017 25 June, 2018
12 Mechanical and Electrical properties of Chitosan Doped with Zirconium Oxide for Biomaedical Engineering Masters Supervisor 01 January, 2017 25 June, 2018
13 Assessment of trace element contamination in sediments of the Madhumati River using Neutron Activation Analysis Masters Supervisor July 2017 December 2018

No Data Available

coming soon...

Md Shihabun Sakib, Md Naimur Rahman, Md Alamgir Hossain, Md Rashedur Rahman, “Effect of annealing on the structural, morphological, optical, magnetic, and dielectric properties of nickel-doped cobalt nanoferrites for electronic applications” Physics Open (Elsevier, December 2024)
https://doi.org/10.1016/j.physo.2024.100250

I. Sardar, M.D. Hossain, M.S. Sikder ,M.N.I. Khan, M.R. RahmanEnhancement of coercivity, permeability, and dielectric properties of        Co0.2Zn0.3Ni0.5EuxFe2-xO4 ferrites for memory and high frequency devices- Journal of Rare Earths (Elsevier, June 2024)

    https://doi.org/10.1016/j.jre.2023.05.010

M.S. Sikder, M.D. Hossain, I. Sardar, Md. Sarowar Hossain, M.N.I. KhanM.R. RahmanImproved magnetic and dielectric quality factors     with low losses in rare  earth (Eu) substituted Co-Ni-Zn ferrites for high frequency devices. Results in Physics 46 (2023) 106320. 

M. Al‑Fahat Hossain, M. Al‑Mamun, M. R. Rahman and Sheikh Manjura Hoque. Effect of in‑situ growth and separate addition method
    in hydrothermal process on the structural and magnetic properties of CoNiFe2O4@ functionalized CNTs nanocomposite Applied                Physics A (2021) 127:896

        Sikder, M.S., Rahman, M. R., Al-Mamun, M., Chowdhury, M.S.S. and Haque, M. M. (2020). Structural and Mechanical Properties of Chitosan Doped with Zirconium Oxide. International Journal of Advances in Scientific Research and Engineering, 6(7), 55-60.

        P. Roy, M. R. Rahman and H. R. Khan“Simulation Study of Waveguide and Chromatic Dispersion of a Single Mode Step Index     Optical Fiber”, International Journal of Advances in Scientific Research and Engineering, Vol. 5(1), pp. 116 - 122, 2019.

        M. A. Reza, A. K. Paul, H. R. Khan, M. R. Rahman, “Quality Control of Dual Energy X-Ray Absorptiometry”, International Journal of Medical Physics, Clinical Engineering and Radiation Oncology, Vol.7, pp. 323-329, 2018.

        Md. Ali Reza, Md. Rakibul Islam, Md. Shakilur Rahman, M. Shamsuzzaman, Md. Rashedur Rahman, Harnur Rashid Khan, “Calibration of Therapy Level Ionization Chamber at 60Co Teletherapy Beam Used for Radiation Therapy”, International Letters of Chemistry, Physics and Astronomy, Vol. 79, pp 1-8, 2018.

        Md. Razibul Hasan, Md. Harunor Rashid Khan, Md. Rashedur Rahman, Md. Shohel Parvez, Md. Rakibul Islam, Ashoke Kumar Paul, “Quality Control of Gamma Camera with SPECT Systems, ” International Journal of Medical Physics, Clinical Engineering and Radiation Oncology, Vol.6, pp. 225-232, 2017.

        M. R. Rahman, M. O. Rahman, M. A. Shariff, M. S. Uddin, M. M. Hasan, “Heavy Metal Contamination In Agricultural Soil of South-Western Seashore Area in Bangladesh,” International Journal of Agriculture and Environmental Research, Vol.03, Issue:02, pp.16-21, pp. 2584-2599, March-April 2017.

        M. R. Rahman, M. O. Rahman, M. A. Shariff, M. S. Uddin, M. M. Hasan and M. A. Shameem; “PIXE analysis of some environmental samples from selected saline region of Bangladesh” International Journal of Environmental Science and Development, Vol.7, No.1, pp.16-21, January, 2016.

        M. R. Rahman, M. A. Shariff, M. O. Rahman, M. S. Uddin, A. K. M. Shafiq Ullah, M. A. Shameem, M. M. Hasan, S. J. Hasan and M. A. Huq; “Studies of Essential and Trace Elements in Some Fruits and Vegetables of Southwestern Bangladesh by PIXE Technique” Pakistan Journal of Nutrition, Vol. 13(2), pp. 62 – 66, February 2014.

        M. R. Rahman*, M. Paul, M. A. R. Akand, O. F. Rasel, M. Hoq, M. S. Sikder, “Optimization of Surface Reflectance for Crystalline Silicon Wafer Texturing by Alkaline Solution”, Jahangirnagar University Physics Studies, Vol. 22, pp. 1 - 8, 2018.

        M. Rashedur Rahman*, “Design of a Single Mode Step Index Optical Fiber for Communication System”, Jahangirnagar University Physics Studies, Vol. 22, pp. 9 - 18, 2018.  

        M. Kamrujjamanr, M. Mahbubul Haque, Md. Jainul Abedin, Md. Obaidur Rahman, M. R. Rahman and M. Mominur Rahman, “Synthesis of Hydroxyapatite Nanoparticles using Different Precursors” Jahangirnagar University Physics Studies, Vol. 22, pp. 31 - 42, 2018. 

        M Torikul Islam, S S Sikder, M A Hakim, M R Rahman and M R Hassan, “Complex Permeability and Magnetic Behavior of Cd-substituted Co-Cd Spinel Ferrites”, Jahangirnagar University Physics Studies, Vol. 21, pp. 43-55, 2015.

        M R Rahman, M. O. Rahman, M. A. Shariff, M. S. Uddin, M. M. Hasan, M. Ahmed, M. A. Kabir and M. S. Islam, “Particle Induced X-ray Emission (PIXE) Analysis of Some Fruits and Vegetables in Khulna, Bangladesh”, Jahangirnagar University Physics Studies, Vol. 21, pp. 33-41, 2015.

        M. R. Rahman, M. O. Rahman, M. A. Shariff, M.S. Uddin, M. M. Hasan , S. J. Hasan; “Elemental analysis of agricultural soil samples by PIXE technique”, Jahangirnagar University Journal of Science, Vol. 37, No. 1, pp.15 – 23, June 2014.

        M. R. Rahman, M. H. R. Khan, M Obaidur Rahman, F. Nahid, M. T. Islam; “To design a single mode step index fiber for communication system” Jahangirnagar University Physics Studies, Vol. 20, pp.1-8, 2014.

        Farzana Nahid, M Rashedur Rahman; “Thermal excitation energy of trapped electrons at low temperature studied through positron annihilation lifetime spectroscopy” Khulna University Studies, Vol. 11 (1&2) and 12 (1&2), pp.157-165, December 2013.

        M Rashedur Rahman, S M Yunus, M A Saeed Khan; “Studies of the Effect of Mosaic Spread of Monochromator Crystal on the Resolution and Intensity in a Neutron Diffractometer” Jahangirnagar University Journal of Science, Vol. 30, No.1, pp.79 – 85, June 2007.

        M Rashedur Rahman, S M Yunus, M A Saeed Khan; “Studies of the Effect of Collimator Divergence on the Resolution and Intensity in a Neutron Diffractometer" Jahangirnagar University Journal of Science, Vol. 28, pp.117 – 127, 2005. 

     

    Mechanics Lab

    This course is to introduce one to the proper methods for conducting controlled physics experiments, including the acquisition, analysis and physical interpretation of data. The course involves experiments which illustrate the principles of mechanics. In this course students will grasp to operate Searle's apparatus, fly wheel, compound pendulum, capillary tube, flat spiral spring etc. and will be able to manage various sensitive instruments safely.

    Heat and Thermodynamics Lab

    This course is to introduce one to the proper methods for conducting controlled physics experiments, including the acquisition, analysis and physical interpretation of data. The course involves experiments which illustrate the principles of heat and thermodynamics. In this course students will grasp to operate Searle's apparatus, calorimeter, Lee's apparatus etc and will be able to manage various hot and cold apparatus safely. They will able to have a practical experience in dealing experiments of Physics and develop them with their theoretical ideas.

    Running

    Atomic and Molecular Physics

    The course intends to familiarize the principles of the special theory of relativity and develop the ability to use the theory to solve a variety of problems in relativistic kinematics and dynamics. This course also intends to introduce the basic ideas of quantum theory and grow the ability to apply simple ideas of quantum theory to solve a variety of physical problems.

    Basic Electronics and Semiconductor Physics

    This course intends to develop the understanding of different circuit analysis, basic electronics and acquire knowledge about the properties of various types of semiconductor junction diodes. Students completing this course will realize the relevant properties of semiconductor materials and physical principles of diodes that will prepare them for upper level courses in the electronics and engineering.

    Running

    Optics Lab-II

    With the experimental techniques of photonics, student will be familiar with basic optical methods, and comprehend the culture of scientific research. Meanwhile, the designs of this course allow students to experience the phenomena discussed in Optics course. The course includes the topics of geometrical optics and basic tools for optical laboratory.

    Running

    Nuclear Physics-I

    This course intends to introduce the fundamentals of nuclear physics and applications, as well as mathematical tools needed to grasp these concepts and to demonstrate how society can benefit from our knowledge in this field. This course will also enhance the ideas required for nuclear medical research, energy production, and studying the structure of matter.

    Classical Mechanics

    The course intends to introduce the Lagrangian and Hamiltonian formulations of classical mechanics and to develop the knowledge and skills required to solve a variety of dynamical problems involving more than one degree of freedom.

    Electromagnetic Lab-I

    This course intends to give a general theory that includes several aspects of electromagnetic applications such as capacitors, inductors, transformers, electromagnetic forces and power losses in electromagnetic systems (at low frequencies), B-H curve fitting, impendence matching circuits, horizontal component of earth magnetic field etc.

    Nuclear Physics-II

    This course intends to understand the basic properties of interaction of charge particles and radiation with matter; pair production and annihilation; and radiation length. The course will also give extending knowledge about various counters, detector and also accelerator related to the nuclear engineering. At last this course will provide a details idea about nuclear radiation like alpha, beta and gamma decay and there related problems.

    Running

    Nuclear Physics Lab

    This course is intends to introduce the proper methods for conducting controlled physics experiments, including the acquisition, analysis and physical interpretation of data. The course will also introduce the students to operate Geiger-Mueller counter and to manage various radioactive sources safely. They will able to have a practical experience in dealing experiments of Physics and develop them with their theoretical ideas.

    Radiation and Health Physics

    The course intends to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. The course will provide an understanding to apply radiation dosimetry to real-world problems that arise in the fields of medical physics and radiation protection.

    Materials Science

    This course intends to offer some basic knowledge of materials with their properties and applications. Solidification of materials and the growth mechanism of materials with sample processing is also discussed here.  Different phase diagrams, their interpretation, and the development of microstructures are highlighted. Characterization processes are also included in this course with their principles. Along with this, nanomaterials are introduced with their basic properties and applications.  

    Running

    Electronics and Electronic Communication - I

    The course intends to provide students a thorough understanding of the elementary as well as advanced concepts of operational amplifier (Op-amp) and its applications in designing different electronic circuits including amplifier, subtractor, voltage follower, temperature indicator, lux meter, etc.; optical and computer communication systems, computer networking.

    Advanced Health and Radiation Physics

    The course intends to provide an understanding of the effects of radiation in vivo, operational health physics, radiation protection and epidemiological methods appropriate for practice as a medical or health physicist.

    Running
    • Mechanics Lab
    • Heat and Thermodynamics Lab
    • Atomic and Molecular Physics
    • Basic Electronics and Semiconductor Physics
    • Optics Lab-II
    • Nuclear Physics-I
    • Classical Mechanics
    • Electromagnetic Lab-I
    • Nuclear Physics-II
    • Nuclear Physics Lab
    • Radiation and Health Physics
    • Materials Science
    • Electronics and Electronic Communication - I
    • Advanced Health and Radiation Physics