Jiangming Yao | Nuclear Physics | Best Researcher Award

Posted on by ScienceFather

Prof. Jiangming Yao | Nuclear Physics | Best Researcher Award

School of Physics and Astronomy, Sun Yat-sen University | China

Jiangming Yao is a Professor at the School of Physics and Astronomy at Sun Yat-sen University in Zhuhai, Guangdong, China. He is an expert in nuclear physics, specializing in quantum many-body approaches, including ab initio calculations and chiral effective field theory. With a strong academic background, he has significantly contributed to the study of nuclear structure, hypernuclei, and neutron stars, and has made strides in neutrino physics and CP violation.

👨‍🎓 Profile

Google scholar

Scopus

Orcid

📚 Early Academic Pursuits

Jiangming Yao’s academic journey began at Nankai University, where he earned his BSc in 2004. He continued his academic excellence at Peking University, completing a PhD in Nuclear and Particle Physics in 2009 under the supervision of Jie Meng. His doctoral research, Covariant Density Functional Theory for Nuclear Spectroscopy, laid the foundation for his future work in nuclear structure and theoretical models. He also undertook an exchange program at Technical University of Munich in Germany, supervised by Peter Ring, where he expanded his theoretical knowledge.

💼 Professional Endeavors

Professor Yao’s career spans multiple prestigious institutions globally. After earning his PhD, he held several postdoctoral research positions at the Université Libre de Bruxelles, University of North Carolina at Chapel Hill, and Michigan State University‘s FRIB/NSCL. He later served as an Assistant Professor at Tohoku University in Japan before returning to China, where he is now a Professor at Sun Yat-sen University. His professional journey reflects a deep commitment to advancing nuclear theory through innovative computational methods.

🔬 Contributions and Research Focus

Professor Yao’s research primarily focuses on quantum many-body approaches with applications to nuclear matrix elements in neutrino physics and nuclear structure. He applies chiral effective field theory to model neutrinoless double-beta decay and CP violation, while also utilizing nuclear density functional theory for exploring nuclear matter and neutron stars. His work on hypernuclei and the study of Schiff moments for new physics are fundamental for advancing our understanding of nuclear interactions in extreme conditions.

📊 Academic Cites

Professor Yao has authored over 100 peer-reviewed research papers, with an impressive H-index of 33 and more than 3,000 citations. His research output is highly respected in the scientific community, with notable recognition for his contributions in journals like Physical Review C, Progress of Theoretical and Experimental Physics, and the European Physical Journal A. His research impact is reflected in his academic presence on databases like Web of Science, ORCID, and Inspirehep.

🛠️ Research Skills

Professor Yao is highly proficient in various computational methods central to nuclear physics. These include ab initio calculations, nuclear density functional theory (DFT), and chiral effective field theory (EFT). His expertise also spans the use of advanced techniques like multi-reference covariant DFT, generator coordinate method, and the in-medium similarity renormalization group (IM-SRG), enabling highly accurate studies of nuclear structure, exotic nuclei, and nuclear reactions.

👩‍🏫 Teaching Experience

Professor Yao has been an inspiring educator at Sun Yat-sen University, where he teaches courses such as Advanced Quantum Mechanics, Atomic Physics, Nuclear Theory, and Introduction to Nuclear and Particle Physics. His dedication to mentoring graduate students, alongside his extensive tutoring experience at Peking University and Southwest University, underscores his commitment to shaping the next generation of physicists. His students are often involved in high-impact nuclear research topics under his guidance.

🏆 Awards and Honors

Professor Yao has received numerous prestigious awards and grants in recognition of his innovative contributions to nuclear physics. Notable among these is his National Natural Science Foundation of China (NSFC) grants, including a significant award for his project on ab initio nuclear matrix elements for neutrinoless double beta decay. He also earned the Wu-Si Scholarship for Top Students during his studies at Peking University and has been honored with multiple research funding initiatives over his career.

🌱 Legacy and Future Contributions

Professor Yao’s work has laid the groundwork for continued progress in nuclear physics, especially in the realms of neutrino physics and nuclear matrix element calculations. His leadership in organizing high-impact workshops and symposia, such as the Workshop on Generator Coordinate Method and the Symposium on Nuclear Physics in Guangdong-Hong Kong-Macao Area, reflects his dedication to fostering collaboration and advancing the field. His ongoing research promises to deepen our understanding of nuclear interactions and contribute to groundbreaking discoveries in particle physics and astrophysics.

  Publications Top Notes

Ab initio Uncertainty Quantification of Neutrinoless Double-Beta Decay in Ge-76

    • Authors: Belley, A.; Yao, J.M.; Bally, B.; Pitcher, J.; Engel, J.; Hergert, H.; Holt, J.D.; Miyagi, T.; Rodríguez, T.R.; Romero, A.M. et al.
    • Journal: Physical Review Letters
    • Year: 2024

Emulating generator coordinate method with extended eigenvector continuation: Lipkin-Meshkov-Glick model

    • Authors: Luo, Q.Y.; Zhang, X.; Chen, L.H.; Yao, J.M.
    • Journal: arXiv
    • Year: 2024

Low-momentum relativistic nucleon-nucleon potentials: Nuclear matter

    • Authors: Wang, C.; Wang, S.; Tong, H.; Hu, J.; Yao, J.
    • Journal: Physical Review C
    • Year: 2024

Multireference covariant density-functional theory for the low-lying states of odd-mass nuclei

    • Authors: Zhou, E.F.; Wu, X.Y.; Yao, J.M.
    • Journal: Physical Review C
    • Year: 2024

Quantum-Number Projected Generator Coordinate Method for ^21Ne with a Chiral Two-Nucleon-Plus-Three-Nucleon Interaction

    • Authors: Lin, W.; Zhou, E.; Yao, J.; Hergert, H.
    • Journal: Symmetry
    • Year: 2024

 

 

 

Roza Avetisyan | Nuclear Physics | Women Researcher Award

Posted on by ScienceFather

Dr. Roza Avetisyan | Nuclear Physics | Women Researcher Award

A.I. Alikhanyan National Science Laboratory | Armenia

Dr. Roza Avetisyan is a distinguished researcher in the field of nuclear physics, currently serving as the Head of the Low Energy Nuclear Physics Group at the A.I. Alikhanyan National Science Laboratory in Yerevan, Armenia. With a Ph.D. in Physics, Avetisyan’s work spans over a decade of research and scientific contributions, particularly in nuclear reactions, medical isotopes, and accelerator-based physics.

👨‍🎓Profile

Google scholar

Scopus

Orcid

🎓 Early Academic Pursuits

Dr. Avetisyan’s academic journey began at Yerevan State University, where she earned her B.S. and M.S. degrees in Physics (2005-2011). Her early research focused on GEANT4 simulations and the spontaneous radiation of electron beams, setting the foundation for her future work in nuclear physics. She continued her academic trajectory by joining the A.I. Alikhanyan National Science Laboratory for her Ph.D., completing her dissertation in 2022 on “Study of the excitation functions and isomer ratios of proton and gamma-induced reactions,” under the mentorship of I.A. Kerobyan.

💼 Professional Endeavors

Roza’s career spans multiple roles at the A.I. Alikhanyan National Science Laboratory (AANL) in Armenia. Since 2012, she has evolved from an engineer physicist to the head of the Low Energy Nuclear Physics Group (since January 2023). She has also held key positions like Science Secretary and Researcher within the same group, contributing to various nuclear physics projects and fostering scientific collaboration. Her contributions extend to international partnerships, as she has also worked as a laboratory research visitor at the University of Notre Dame (2013).

🔬 Contributions and Research Focus

Dr. Roza Avetisyan’s research is primarily focused on low-energy nuclear physics, proton and gamma-induced reactions, and medical isotopes. Her key contributions include the investigation of excitation functions and isomer ratios in nuclear reactions, as well as the production of medical isotopes like 186gRe. Through her leadership at AANL, she has advanced studies on applied gadolinium radioisotopes, neutron flux formation, and isotope production using cyclotron beams. Her research plays a critical role in nuclear medicine and radiation safety.

Academic Cites 📑

Dr. Roza Avetisyan has authored multiple influential papers in nuclear physics, which have been cited in leading journals such as Nucl. Phys. A, The European Physical Journal A, and NIM B. Notable publications include works on the formation of 180mTa and the production of 186gRe. Her research on proton-induced reactions and excitation functions contributes to the understanding of nuclear processes and their applications in various sectors, including nuclear energy and medical isotope production.

👨‍🏫 Teaching Experience

While her primary focus is research, Dr. Avetisyan’s role as a research mentor and group leader at the AANL has involved training and guiding the next generation of physicists. Her participation in international workshops and summer schools reflects her commitment to educating young scientists in nuclear physics and accelerator technology.

Research Skills 🧠

Roza possesses advanced skills in nuclear reaction analysis, isotope production, and simulation tools like TALYS, EMPIRE, and GEANT4. She is proficient in using these tools to model and predict nuclear processes, which is critical for her research in low-energy nuclear physics and nuclear medicine. Furthermore, her experience with cyclotron facilities and bremsstrahlung beams enhances her research capabilities in both theoretical and applied physics.

Technical Skills ⚙️

Roza is well-versed in a range of technical skills essential for her research, including programming languages and simulation software. She is proficient in TALYS, EMPIRE, and SRIM/TRIM, which are crucial for simulating nuclear reactions and material interactions. Her proficiency extends to data analysis using OriginPro and SketchUp, enhancing her research in both theoretical calculations and experimental setups.

Legacy and Future Contributions 🌟

Roza Avetisyan’s legacy is firmly rooted in her contributions to low-energy nuclear physics and medical isotope research. As she continues to lead AANL’s Low Energy Nuclear Physics Group, her future work will likely focus on advancing nuclear spectroscopy and expanding the use of applied isotopes in medical and industrial applications. With her scientific leadership, Roza is poised to make lasting contributions to both scientific communities and nuclear medicine, potentially revolutionizing the way medical treatments are delivered using isotopes.

Top Noted Publications 

 

 

Kehfei Liu | Nuclear Physics | Best Researcher Award

Posted on by ScienceFather

Prof. Kehfei Liu | Nuclear Physics | Best Researcher Award

Researcher at Lawrence Berkeley National Lab, United States

👨‍🎓 Profiles

Summary 🧑‍🔬

Keh-Fei Liu is an esteemed theoretical physicist specializing in nuclear and particle physics, particularly in lattice Quantum Chromodynamics (QCD). With a career spanning decades, Liu has made significant contributions to the understanding of hadron physics, nucleon structure, and computational high-energy physics. He holds a Ph.D. in Theoretical Physics from Stony Brook University (1975) and has received numerous prestigious awards, including the Alexander von Humboldt Award and Fellowship in the American Physical Society. Liu is a recognized leader in the physics community and has played an instrumental role in various international conferences and workshops.

Education 🎓

  • B.S. (Highest Honors) (1968)

          Tunghai University, Taiwan

  • M.A. (1971)

           State University of New York, Stony Brook

  • Ph.D. in Theoretical Physics (1975)

           Stony Brook University

Professional Experience 💼

  • Professor, Department of Physics,

University of Kentucky (1986–2023)

  • Visiting Scientist

Lawrence Berkeley National Lab (2022–Present)

  • Adjunct Professor,

University of Science and Technology, Hefei, China (1989–1999)

  • Visiting Researcher,

CEN Saclay, France (1974–1976)

University of California, Los Angeles (1976–1980)

  • Humboldt Senior Scientist,

HLRZ, Jülich, Germany (1991)

Research Interests 🔬

  • Lattice QCD: Lattice calculations to understand hadrons and nucleon structure.
  • Nuclear and Particle Physics: Investigating fundamental forces and quark-gluon interactions.
  • Computational Physics: Development of algorithms for high-energy physics simulations.

Awards & Honors 🏆

  • First Prize in Theoretical Physics, Chinese Academy of Sciences (1987)
  • Alexander von Humboldt Award for Senior Scientist (1990)
  • Fellow, American Physical Society (1997)
  • Albert D. and Elizabeth H. Kirwan Memorial Prize, University of Kentucky (2018)
  • Outstanding Alumni Award, Tunghai University (2022)

Key Contributions 🌍

  • Leadership in Conferences & Workshops:

Organized and contributed to major international conferences on lattice QCD and hadron physics, such as Extreme QCD 2012 and the International Symposium on Lattice Field Theory.

  • Grant Leadership:

Principal Investigator for multiple DOE and NSF grants supporting research in theoretical nuclear physics, including projects on nucleon structure and quark-gluon dynamics.

 Publications

Charm physics with overlap fermions on 2+1-flavor domain wall fermion configurations
  • Authors: Li, D.-H., Chen, Y., Gong, M., Liu, Z., Wang, T.-X.
    Journal: Chinese Physics C
    Year: 2024
The present and future of QCD
  • Authors: Achenbach, P., Adhikari, D., Afanasev, A., Zhou, J., Zurek, M.
    Journal: Nuclear Physics A
    Year: 2024
Lattice QCD Calculation of Electroweak Box Contributions to Superallowed Nuclear and Neutron Beta Decays
  • Authors: Ma, P.-X., Feng, X., Gorchtein, M., Wang, B.-G., Zhang, Z.-L.
    Journal: Physical Review Letters
    Year: 2024
Trace anomaly form factors from lattice QCD
  • Authors: Wang, B., He, F., Wang, G., Liu, K.-F., Yang, Y.-B.
    Journal: Physical Review D
    Year: 2024
Temperature dependence of beam on plasma stopping power in the resonance regions of fusion reactions
  • Authors: Liu, K.-F.
    Journal: Fundamental Plasma Physics
    Year: 2024
Hadrons, superconductor vortices, and cosmological constant
  • Authors: Liu, K.-F.
    Journal: Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
    Year: 2024
Nucleon electric dipole moment from the θ term with lattice chiral fermions
  • Authors: Liang, J., Alexandru, A., Draper, T., Wang, G., Yang, Y.-B.
    Journal: Physical Review D
    Year: 2023

 

 

Giuseppe Maino | Nuclear Physics | Best Researcher Award

Posted on by ScienceFather

Prof. Giuseppe Maino | Nuclear Physics | Best Researcher Award

Retired from University of Bologna, Italy

👨‍🎓 Profiles

🌟Summary

Giuseppe Maino is a distinguished physicist, educator, and researcher with a broad interdisciplinary focus, including nuclear structure, complex systems, biophysics, and cultural heritage preservation. He has an extensive international academic career, holding positions at leading institutions and contributing significantly to both theoretical physics and applied research for cultural heritage. With over 440 publications, numerous leadership roles in major research projects, and a passion for science communication, Maino has made impactful contributions across a range of fields. 🌍📚

🎓Education

  • Magna Cum Laude in Physics (General and Theoretical), University of Bologna, Italy 🎓
  • Scholarships from the European Physical Society, CNR – Fulbright, and the Angelo Della Riccia Foundation.
  • Studied nuclear structure under Professor Francesco Iachello, at Rijksuniversiteit Groningen (Netherlands) and later as Gibbs Professor at Yale University (USA). 🏫🌍

💼Professional Experience

  • ENEA (Italian National Agency for New Technologies, Energy, and Environment):
    • Researcher (since 1984)
    • Coordinator, Core of Competence for Nonlinear & Complex Dynamical Systems (1990-1994)
    • Deputy Director of the Division of Physics (1994-2002)
    • Research Director (2002-2015) 🧑‍🔬⚡
  • University of Bologna (1986-2015):
    • Contract Professor in Nuclear Engineering (1986-1994)
    • Professor in Cultural Heritage-related courses (1997-2015), including Computer Science for Cultural Heritage, Image Processing, and Virtual Restoration. 💻🎨
  • Visiting Professor at multiple institutions globally, including Yale University, Russian Academy of Sciences, and University of São Paulo. 🌐📖

🔬Research Interests

  • Nuclear Physics & Complex Systems:

Focus on nonlinear dynamics, biophysics, and advanced mathematical modeling. 🔬

  • Cultural Heritage Preservation:

Developing scientific methods for the documentation, restoration, and protection of endangered cultural heritage sites. 🏛️🖼️

  • Interdisciplinary Research:

                   Exploring intersections between physics, chemistry, biophysics, and the humanities. 🌍⚛️

🏆Key Achievements 

  • Over 440 scientific publications in international journals.
  • Author of books on physical diagnostics for cultural heritage and cultural heritage preservation.
  • Organized 39 conferences and edited 19 volumes of conference proceedings with Springer and World Scientific.
  • 400+ seminars and invited talks worldwide. 🗣️

 Publications

Xenon photonuclear cross sections for the production of 123I radionuclide
    • Authors: Maino, G.
    • Journal: Radiation Physics and Chemistry
    • Year: 2024
Prime numbers, atomic nuclei, symmetries and superconductivity
    • Authors: Maino, G.
    • Journal: AIP Conference Proceedings
    • Year: 2019
A thermodynamic approach to the microclimate environment of museums
    • Authors: Maino, G., Lucia, U.
    • Journal: Physica A: Statistical Mechanics and its Applications
    • Year: 2019
Minorum Capuccinorum bibliotheca Bononiae: Incunabula and sixteenth-century editions of the Library of the convent of the Friars Minor Capuchin of Bologna
    • Authors: Maino, D.B., Maino, G.
    • Journal: Bibliothecae.it
    • Year: 2019
Non-metric digital reconstruction of Roman mosaics excavated in the city of Ravenna (Italy)
    • Authors: Monti, M., Maino, G.
    • Journal: Virtual Archaeology Review
    • Year: 2018
Computational stochastic model of ions implantation
    • Authors: Zmievskaya, G.I., Bondareva, A.L., Levchenko, T.V., Maino, G.
    • Journal: AIP Conference Proceedings
    • Year: 2015
A study of the Civic Tower in Ravenna as an example of medieval towers’ preservation problems
    • Authors: Bruni, S., Maino, G., Marrocchino, E., Vaccaro, C., Volpe, L.
    • Journal: European Physical Journal Plus
    • Year: 2013

 

 

 

Shixiang Peng | Nuclear Physics | Best Researcher Award

Posted on by ScienceFather

Prof Dr. Shixiang Peng | Nuclear Physics | Best Researcher Award 

Academician/Research Scholar at State Key Laboratory of Nuclear Physics and Technology & Institute of Heavy Ion Physics, China

Prof. Dr. Shixiang Peng is a renowned physicist at the State Key Laboratory of Nuclear Physics and Technology and the Institute of Heavy Ion Physics, China. With extensive research in nuclear physics, his expertise lies in the application of heavy ion physics, focusing on cutting-edge experimental and theoretical methods. Dr. Peng has made significant contributions to understanding nuclear reactions and the structure of atomic nuclei. He has been an active participant in numerous international collaborations and projects aimed at advancing nuclear science. His work is highly regarded by the scientific community, earning him several prestigious awards and honors. Dr. Peng is also a dedicated mentor, guiding students and researchers in their academic and professional pursuits. His research continues to shape the future of nuclear physics, with a vision of advancing scientific knowledge and its practical applications.

🌱Profile

🧑‍🎓 Early Academic Pursuits

Shixiang Peng began his academic journey with a strong foundation in physics and engineering, honing his skills and knowledge in ion source technologies. His dedication to research led him to Peking University, where he developed a deep interest in ion source physics, laying the groundwork for a prolific career in nuclear physics and technology.

💼 Professional Endeavors

As a Professor at Peking University and the head of the ion source group at the State Key Laboratory of Nuclear Physics and Technology, Shixiang has played a crucial role in advancing research in ion sources. His leadership has fostered an environment of innovation and collaboration, attracting talented researchers to work on cutting-edge projects that push the boundaries of ion source technology.

🔬 Contributions and Research Focus

Shixiang’s research primarily revolves around ion source physics, particularly microwave ion sources. He has authored numerous publications, including works on beam efficiency and plasma simulation. His contributions to the development of miniaturized microwave ion sources and surface wave plasma sources are particularly noteworthy, showcasing his commitment to improving the performance and reliability of ion sources in various applications.

🌍 Impact and Influence

Shixiang Peng’s work has significantly influenced the field of ion source technology, with his publications being widely cited in scientific literature. His research has paved the way for advancements in nuclear physics applications, including medical and industrial uses, demonstrating the practical impact of his academic efforts on society.

📚 Academic Cites

With a remarkable record of over 20 peer-reviewed publications, Shixiang’s research is highly regarded in the scientific community. His work has garnered numerous citations, reflecting the relevance and importance of his findings in advancing ion source technology and its applications.

🛠️ Technical Skills

Shixiang possesses a diverse skill set, including expertise in plasma simulation, microwave ion sources, and beam diagnostics. His technical acumen extends to hands-on experience with advanced instrumentation, making him a leading figure in the development of innovative ion source solutions.

👨‍🏫 Teaching Experience

In addition to his research, Shixiang is committed to education, mentoring students and junior researchers in the field of nuclear physics. His teaching philosophy emphasizes hands-on experience and real-world applications, preparing the next generation of scientists to tackle complex challenges in ion source technology.

🌟 Legacy and Future Contributions

Shixiang Peng’s legacy in ion source research is marked by his innovative contributions and commitment to excellence. Looking ahead, he aims to continue advancing the field by exploring new technologies and methodologies. His vision for future research includes developing more efficient ion sources and expanding their applications in various scientific disciplines, ensuring a lasting impact on the field of nuclear physics and technology.

📖Publication Top Notes

Publication Title: C− generation by charge exchange with non-metallic gas for positive ion mass spectrometry

  • Authors: Cui, B., Peng, S., Li, K., Guo, Z., Chen, J.
    Publication Year: 2024
    Citations: 0

Publication Title: Prototype of a 2.45 GHz cylindrical ceramic dielectric antenna surface wave plasma source for flood gun

  • Authors: Peng, S., Cui, B., Jiang, Y., Guo, Z., Chen, J.
    Publication Year: 2024
    Citations: 0

Publication Title: A new proton injector based on PKU-type 2.45GHz PMECR ion source for BNCT facility

  • Authors: Cui, B., Peng, S., Ma, T., Guo, Z., Chen, J.
    Publication Year: 2024
    Citations: 0

Publication Title: Design and Experiment of a Slotted Antenna Surface Wave Plasma Flood Gun

  • Authors: Cui, B., Peng, S., Ma, T., Guo, Z., Chen, J.
    Publication Year: 2024
    Citations: 0

Publication Title: The High Beam to Power Efficiency Investigation of Miniaturized Microwave Ion Source

  • Authors: Peng, S., Ma, T., Cui, B., Guo, Z., Chen, J.
    Publication Year: 2024
    Citations: 0