Asgar Hosseinnezhad | Radiation | Best Researcher Award 

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Dr. Asgar Hosseinnezhad | Radiation | Best Researcher Award 

Ph.D. in University of Tabriz | Iran

Dr. Asgar Hosseinnezhad earned his Ph.D. in Nuclear Physics from the University of Tabriz. His research focuses on nuclear structure, shape coexistence, quadrupole deformations, and particle detection technologies. He has published nine peer-reviewed articles in leading journals such as Nuclear Physics A, Physica Scripta, Scientific Reports, and Radiation Physics and Chemistry. His contributions include advancing understanding of quadrupole transition probabilities, isotopic chain deformations, and developing numerical modeling approaches for alpha particle detection with CdTe-based sensors. Dr. Hosseinnezhad has also served as a peer reviewer for journals in nuclear physics and engineering, reflecting his expertise and engagement in the field.

Professional Profiles 

Early Academic Pursuits

Dr. Asgar Hosseinnezhad began his academic journey at the University of Tabriz, East Azerbaijan, Iran, where he pursued his PhD in Nuclear Physics from 2019 to 2023. His early academic pursuits focused on nuclear structure, collective motion of nuclei, and the theoretical aspects of nuclear deformation. During his doctoral studies, he developed strong expertise in computational modeling and simulation, laying the groundwork for his later research contributions in nuclear structure physics and radiation detection methodologies.

Professional Endeavors

Alongside his academic work, Dr. Hosseinnezhad has contributed to both theoretical and applied nuclear physics. His professional endeavors include collaborative projects on nuclear deformation, quadrupole transition rates, and isotopic chain investigations. He has also been active in peer review, providing scholarly evaluations for journals such as Nuclear Engineering Progress and Majallah-i ʿulūm va funūn-i hastah/ī. His participation in academic review activity reflects his growing influence in shaping research quality in nuclear physics and applied radiation studies.

Contributions and Research Focus

Dr. Hosseinnezhad’s research focus revolves around nuclear structure physics, effective quadrupole deformations, and collective excitations in isotopic chains. His published works include investigations into Pd, Cd, Pt, and Nd isotopes, using advanced models such as the Interacting Boson Model and Z(5) framework. Furthermore, he has ventured into applied areas with his 2025 study on Numerical Modeling and Circuit Simulation of Alpha Particle Detection Using CdTe-Based Sensor Arrays, connecting nuclear physics with practical radiation detection applications. This dual focus on theoretical models and applied detector development highlights his versatility as a nuclear physicist.

Impact and Influence

The impact of Dr. Hosseinnezhad’s work is seen in his contributions to both fundamental and applied nuclear science. His publications in high-impact journals such as Nuclear Physics A, Physica Scripta, Radiation Physics and Chemistry, and Scientific Reports have established him as a promising researcher. His investigations into quadrupole transition rates and shape coexistence provide valuable insights into nuclear collectivity, while his applied works in alpha-particle detection strengthen the bridge between theoretical physics and radiation instrumentation.

Academic Cites

Dr. Hosseinnezhad’s academic works have been cited in the fields of nuclear physics and applied radiation sciences. His articles on nuclear deformation and quadrupole correlations are increasingly referenced by researchers exploring collective nuclear behavior, while his applied detector simulation research offers valuable references for those working in radiation detection technologies. His growing academic profile reflects the rising influence of his research contributions.

Legacy and Future Contributions

Looking to the future, Dr. Hosseinnezhad is poised to expand his contributions at the intersection of nuclear structure theory and applied radiation science. His legacy will likely include pioneering methods that integrate nuclear modeling with real-world detector applications, advancing both basic science and technological innovation. By mentoring future scholars and continuing collaborations, he will help shape the next generation of nuclear physicists. His trajectory suggests a continuing commitment to deepening our understanding of nuclear collectivity while also improving practical tools for radiation measurement and detection.

Publication Top Notes

Title: Deformation in 92−128Pd isotopes
Authors: A. Hosseinnezhad, A.J. Majarshin, Y.A. Luo, D. Ahmadian, H. Sabri
Journal: Nuclear Physics A
Year: 2022
Citations: 5

Title: The correlation of quadrupole transition rates of deformed nuclei by non-parametric approach
Authors: A. Hosseinnezhad, H. Sabri, M. Seidi
Journal: Nuclear Physics A
Year: 2022
Citations: 3

Title: New pattern in regular nuclei based on their experimental quadrupole transition rates and some new candidates
Authors: A. Hosseinnezhad, M. Seidi, H. Sabri
Journal: Scientific Reports
Year: 2023
Citations: 2

Title: Origin of regularity in different nuclei from the viewpoint of the effective quadrupole deformation and triaxiality
Authors: A. Hosseinnezhad, H. Sabri
Journal: Physica Scripta
Year: 2024
Citations: 1

Title: A theoretical study on the effective quadrupole deformations of 100−128Cd isotopic chain
Authors: A. Hosseinnezhad, A.J. Majarshin, H. Sabri
Journal: International Journal of Modern Physics E
Year: 2022
Citations: 1

Title: Investigation of 178−186Pt isotopic chain by using Z(5) and Interacting Boson Model-2
Authors: M.S. Hadi Sabri, Z. Jahangiri Tazekand, F. Mokhtari, Asgar Hosseinnezhad, M. ...
Journal: Physics of Atomic Nuclei
Year: 2021
Citations: 1

Title: Numerical modeling and circuit simulation of alpha particle detection using CdTe-based sensor arrays
Authors: A. Hosseinnezhad, H. Sabri
Journal: Radiation Physics and Chemistry
Year: 2024

Conclusion

In summary, Dr. Asgar Hosseinnezhad’s career reflects a balanced integration of academic excellence, theoretical rigor, and applied innovation. From his early academic pursuits at the University of Tabriz to his impactful contributions in nuclear deformation and radiation detection, he has demonstrated a remarkable ability to advance both science and its applications. His growing academic recognition, strong citation record, and dedication to research and peer review position him as a key figure in the future of nuclear physics and applied radiation science.

Hendry Y. Nanlohy | Atomic and Molecular Physics | Best Researcher Award 

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Prof. Hendry Y. Nanlohy | Atomic and Molecular Physics | Best Researcher Award 

Prof. Hendry Y. Nanlohy | Jayapura University of Science and Technology | Indonesia

Prof. Hendry Y. Nanlohy is an active national and international reviewer with extensive contributions to high-impact journals and global scientific conferences. He has served as a reviewer for prestigious journals such as MATERIALIA, Heliyon, Materials Today: Proceedings, and International Journal of Ambient Energy, among others, spanning Q1–Q3 Scopus and SJR indexed platforms. Beyond journals, he has been a reviewer and technical committee member at more than 30 international conferences across Asia and Europe, including ICEEEE, ICNNE, ICAMM, ICNNN, and ICEMENS. His sustained engagement reflects his expertise in materials science, nanotechnology, energy systems, and advanced manufacturing, while also highlighting his commitment to advancing global research quality and academic collaboration.

Author Profiles

Scopus

Google Scholar

Early Academic Pursuits

Prof. Hendry Y. Nanlohy began his academic journey with a strong passion for physics, engineering, and material sciences. His early education was shaped by a deep curiosity about the natural world, leading him to focus on applied sciences with a special interest in atomic and molecular physics. These foundational years established his pathway toward becoming a dedicated researcher and academic contributor, preparing him for later national and international recognition as a reviewer and scientific committee member.

Professional Endeavors

Throughout his career, Prof. Hendry Y. Nanlohy has demonstrated exceptional dedication to research and scientific development. He has served as a reviewer for prestigious journals including MATERIALIA, Heliyon, Materials Today: Proceedings, Scientia Iranica, and the International Journal of Ambient Energy. Furthermore, he has actively participated in global conferences across Europe, Asia, and the Middle East, covering areas such as nanotechnology, materials engineering, energy, and applied mechanics. His professional endeavors reflect his commitment to fostering global collaboration in advanced sciences, particularly with applications relevant to atomic and molecular physics.

Contributions and Research Focus

Prof. Nanlohy has made significant contributions as a reviewer and technical committee member for over 30 high-level international conferences, including ICAMM, ICMEN, ICNNN, ICNNE, and ICEMA. His research focus is closely aligned with advanced materials, nanotechnology, and energy systems, all of which intersect with atomic and molecular physics principles. His role as a reviewer ensures that high-quality, scientifically rigorous research is disseminated worldwide, thereby advancing the broader field of physical sciences.

Impact and Influence

The impact of Prof. Nanlohy’s work is evident in his extensive service to the academic community. By reviewing and shaping research in international journals and conferences, he has influenced the direction of studies in material science, nanotechnology, and energy applications. His participation in global forums from Beijing and Osaka to France and the United Kingdom illustrates his international influence. His expertise in atomic and molecular physics has been critical for interdisciplinary discussions, bridging physics with engineering and applied sciences.

Academic Cites

Prof. Hendry Y. Nanlohy’s recognition as a reviewer for leading Q1 and Q2 indexed journals such as MATERIALIA and Heliyon reflects the value of his expertise. His evaluations and scientific guidance have helped shape highly cited works in materials science, nanotechnology, and energy systems. By maintaining rigorous academic standards, he indirectly contributes to scholarly works that advance the frontiers of atomic and molecular physics and related disciplines.

Legacy and Future Contributions

Looking forward, Prof. Nanlohy’s legacy lies in his continuing service as a technical committee member and reviewer for international conferences such as ICAMM, ICNNN, ICNNE, and ICEMA. His future contributions will further strengthen the global research landscape, particularly in materials engineering, nanoscience, and advanced energy technologies. His dedication to advancing interdisciplinary applications of atomic and molecular physics ensures that his influence will be felt by future generations of scientists and researchers.

Notable Publications

The effect of Rh³⁺ catalyst on the combustion characteristics of crude vegetable oil droplets

Authors: H.Y. Nanlohy, I.N.G. Wardana, N. Hamidi, L. Yuliati, T. Ueda

Journal: Fuel

Year: 2018

Citations: 72

The role of rhodium sulfate on the bond angles of triglyceride molecules and their effect on the combustion characteristics of crude jatropha oil droplets

Authors: H.Y. Nanlohy, I.N.G. Wardana, M. Yamaguchi, T. Ueda

Journal: Fuel

Year: 2020

Citations: 47

Combustion characteristics of a single droplet of hydroprocessed vegetable oil blended with aluminum nanoparticles in a drop tube furnace

Authors: I.A.S. Ferrao, A.R.R. Silva, A.S.O.H. Moita, M.A.A. Mendes, M.M.G. Costa

Journal: Fuel

Year: 2021

Citations: 38

An experimental study on the ignition behavior of blended fuels droplets with crude coconut oil and liquid metal catalyst

Authors: H.Y. Nanlohy, H. Riupassa, I.M. Rasta, M. Yamaguchi

Journal: Automotive Experiences

Year: 2020

Citations: 38

Graphene oxide doped ethanol droplet combustion: Ignition delay and contribution of atomization to burning rate

Authors: S. Mosadegh, A. Ghaffarkhah, C. van der Kuur, M. Arjmand, S. Kheirkhah

Journal: Combustion and Flame

Year: 2022

Citations: 26

Performance and emissions analysis of BE85-gasoline blends on spark ignition engine

Authors: H.Y. Nanlohy, H. Riupassa, M. Mini, H.T.J. Taba, B. Katjo, N.J.M. Nanulaitta, …

Journal: Automotive Experiences

Year: 2021

Citations: 23

Perbandingan Variasi Derajat Pengapian Terhadap Efisiensi Termal Dan Konsumsi Bahan Bakar Otto Engine Be50

Author: H.Y. Nanlohy

Journal: Jurnal Dinamika

Year: 2012

Citations: 23

Conclusion

Prof. Hendry Y. Nanlohy has established himself as a highly respected figure in the international academic community, with extensive contributions as a reviewer, committee member, and researcher. His career reflects a deep commitment to advancing science through collaboration, rigorous review, and global engagement. By integrating his knowledge of atomic and molecular physics into materials and nanotechnology research, he has built a legacy of academic excellence that will continue to inspire innovation and discovery worldwide.