Imam Kambali | Nuclear Science and Engineering | Best Researcher Award

Dr . Imam Kambali | Nuclear Science and Engineering | Best Researcher Award 

Researcher , National Research and Innovation Agency of Indonesia (Badan Riset dan Inovasi Nasional, BRIN) , Indonesia.

Dr. Imam Kambali is a researcher at the National Research and Innovation Agency (BRIN) of Indonesia, specializing in nuclear physics, nuclear engineering, and accelerator applications. His work primarily focuses on the production of radioisotopes using both cyclotron and reactor-based methods. Dr. Kambali has made significant contributions to the field through his research on proton-induced nuclear reactions and secondary neutron irradiation. His career includes extensive involvement in the development of advanced technologies for nuclear medicine and diagnostics.

Profile

Scopus

Education

Dr. Kambali earned his Ph.D. in Physics from University College Dublin, National University of Ireland, where he worked under the guidance of Prof. Gerry O’Sullivan and Prof. Padraig Dunne. He obtained his Master of Philosophy in Physics from the University of Newcastle, Australia, supervised by Prof. John O’Connor and Prof. Bruce King. He holds a Bachelor’s degree in Nuclear Engineering from Gadjah Mada University, Indonesia, where he was mentored by Dr.-Ing. Kusnanto and Drs. Tjipto Sujitno.

Experience

Dr. Kambali’s professional career began at Indonesia’s National Nuclear Energy Agency (BATAN) where he worked as a researcher from 2014 to 2021. He then transitioned to the National Research and Innovation Agency (BRIN) where he continues to lead research on nuclear technologies. He is also a member of multiple prestigious organizations, including the Indonesian Researcher Union and the Physical Society of Indonesia, reflecting his dedication to advancing nuclear science.

Research Interests

Dr. Kambali’s research focuses on nuclear physics, particularly the production of radioisotopes for medical and industrial applications. He is involved in both cyclotron and reactor-based methods of radioisotope production, with special attention to proton-induced nuclear reactions. His work has contributed to advancements in positron emission tomography (PET) imaging and the development of novel diagnostic tools in nuclear medicine.

Awards

Dr. Kambali has been recognized for his contributions to nuclear science through numerous awards and accolades throughout his career. His work on the development of radioisotope production methods has been celebrated both in Indonesia and internationally, highlighting his influence on nuclear medicine and accelerator technology research.

Publications

Dr. Kambali has published extensively in high-impact journals. Some of his notable publications include:

  • Development of target holder for the first experiment on an alternative route for 64Cu radioisotope production – Nuclear Science and Engineering, 2024. (Cited by)
  • Preliminary Study on Tandem Electrostatic Accelerator for The Ion Accelerator Facility – AIP Conference Proceedings, 2024.
  • Cerium-139 Radionuclide Production from Proton-Induced Nuclear Reaction – AIP Conference Proceedings, 2024.
  • Optimum radioactivity yield of Zirconium-89 radionuclide applicable for radioimmuno-PET imaging – Journal of Physics, 2023.
  • Construction and Building Materials – 2023, (Cited by).

Conclusion

Dr. Imam Kambali’s exceptional research contributions, particularly in nuclear physics and radiopharmaceuticals, make him a strong candidate for the Best Researcher Award. His work’s impact on medical diagnostics, coupled with a strong publication record and international exposure, highlights his dedication to advancing nuclear science. Further broadening his research’s interdisciplinary scope and increasing his leadership in professional organizations could amplify his already significant contributions.

Mahmoud Suaifan | Nuclear Engineering | Research Excellence Distinction Award

Mr. Mahmoud Suaifan | Nuclear Engineering | Research Excellence Distinction Award 

Neutron Beams Section, Head | Jordan Atomic Energy Commission (JAEC) – Jordan Research and Training Reactor (JRTR) | Jordan

Based on the provided information, Mahmoud Suaifan seems like a strong contender for the “Research Excellence Distinction Award.” Here’s an analysis of his suitability for the award, highlighting his strengths, areas for improvement, and a concluding evaluation:

Strengths for the Award

  1. Exceptional Expertise and Experience:
    • Mahmoud’s role as Head of the Neutron Beams Section at JRTR and his previous positions illustrate a high level of expertise in neutron beam sciences. His practical experience at KAERI’s HANARO research reactor further showcases his hands-on skills and deep understanding of neutron beam instrumentation and applications.
  2. Strong Academic Background:
    • His academic qualifications are impressive, with a high GPA in his M.Sc. degree from Korea University of Science and Technology, emphasizing his solid grasp of advanced nuclear systems and neutron beam sciences. This strong academic foundation is crucial for research excellence.
  3. Significant Research Contributions:
    • Mahmoud has made substantial contributions to the field through numerous publications in reputable journals and presentations at international conferences. His research on neutron beam utilization, neutron activation analysis, and Monte Carlo simulations highlights his innovative approaches and depth of knowledge.
  4. Leadership and Innovation:
    • As the Head of the Neutron Beams Section, Mahmoud has demonstrated leadership and the ability to drive research initiatives. His involvement in designing and optimizing neutron imaging facilities showcases his role in advancing research infrastructure and methodologies.
  5. Professional Engagement:
    • His active engagement with the scientific community through publications, posters, and presentations, as well as his professional links, reflects his commitment to sharing knowledge and contributing to the field’s advancement.

Areas for Improvement

  1. Broader Research Scope:
    • While Mahmoud has focused extensively on neutron beam sciences and related applications, expanding his research to include interdisciplinary approaches or emerging technologies could enhance his impact and recognition in broader scientific contexts.
  2. Increased Collaboration:
    • Further collaboration with international researchers and institutions could provide new perspectives and opportunities for innovative research. Strengthening partnerships could also enhance his visibility and influence in the global scientific community.
  3. Public Outreach and Communication:
    • Enhancing public outreach and communication of his research findings could increase the broader impact of his work. Engaging in more popular science initiatives or educational outreach could help bridge the gap between complex scientific research and public understanding.

Conclusion

Mahmoud Suaifan’s exceptional expertise in neutron applications, strong academic background, significant research contributions, and leadership in advancing neutron beam sciences position him as a highly suitable candidate for the Research Excellence Distinction Award. His work demonstrates a high level of scientific rigor and innovation, contributing meaningfully to the field of nuclear engineering and neutron beam science.

To further enhance his candidacy, focusing on expanding research scope, fostering international collaborations, and increasing public engagement could be beneficial. Overall, Mahmoud Suaifan exemplifies the qualities of a distinguished researcher deserving of this award.

Short Bio 🌟

Mahmoud Suaifan is a highly skilled Neutron Applications Engineer at the Jordan Research and Training Reactor (JRTR) within the Jordan Atomic Energy Commission (JAEC). He specializes in neutron beam sciences and instrumentation, demonstrating exceptional proficiency through both theoretical and experimental research. With a solid academic background and practical experience at leading nuclear research institutions, Mahmoud contributes significantly to advancing neutron imaging technologies and applications.

Profile

ORCID 

Education 🎓

Mahmoud completed his M.Sc. in “Advanced Nuclear System Engineering” from Korea University of Science and Technology (UST) in March 2019, achieving an impressive GPA of 4.42/4.5. His studies included in-depth research at the Neutron Science Center, HANARO research reactor, Korea Atomic Energy Research Institute (KAERI). He earned his B.Sc. in Nuclear Engineering from Jordan University of Science and Technology (JUST) in May 2012, with a GPA of 77%.

Experience 💼

  • Head, Neutron Beams Section, JRTR (Nov 2023 – Present)
  • RR Utilization Engineer, JRTR (Oct 2020 – Oct 2023)
  • Specialist in Neutron Activation Analysis (NAA) and Nuclear Fuel Handling, JRTR (Mar 2019 – Sep 2020)
  • Nuclear/Mechanical Commissioning Engineer, JRTR (May 2013 – Feb 2017)
  • Practical experience at KAERI’s HANARO research reactor during his M.Sc. program (Mar 2017 – Mar 2019).

Research Interest 🔬

Mahmoud’s research focuses on neutron source utilization, radiation interaction with matter, neutron imaging (radiography) and diffraction, and advanced materials science. His interests also include nanotechnology, nanomaterials, and the advanced characterization of engineering materials using neutrons and x-rays.

Awards 🏆

While specific awards are not listed, Mahmoud’s role as Head of the Neutron Beams Section and his significant contributions to neutron science indicate a high level of recognition and achievement in his field.

Publications 📚

Status and perspectives on the utilization of a new nuclear research reactor in JordanPhysica B: Condensed Matter, Volume 551, December 2018, Pages 431-435.

Investigation of the Cd-Ratio difference method to measure the cross section of 186W(n,γ)187W at the Jordan Research and Training reactorAnnals of Nuclear Energy, Vol. 205, 2024, 110579.

Validation of McCARD Monte Carlo Calculation Code Against NAA Experiments Using Rare Earth Element Certified Reference Material Activated at JRTRNuclear Technology, 2024. DOI: 10.1080/00295450.2024.2346869.