Professor of Physics- Superior Investigator-Head Accelerator Technology and Applications Department at University of San Martin-National Atomic Energy Commission, Argentina
Prof. Andrés Juan Kreiner is a distinguished physicist specializing in nuclear spectroscopy, accelerator technology, and medical physics applications. He holds a Ph.D. in Natural Sciences from the Technical University of Munich and has made significant contributions to nuclear research, particularly in boron neutron capture therapy (BNCT) and proton therapy. As a senior researcher at CNEA and CONICET, he has led interdisciplinary teams developing accelerator-based technologies for biomedical and nuclear applications. He has held visiting research positions at prestigious institutions such as Brookhaven National Laboratory, Oak Ridge National Laboratory, and the Institut de Physique Nucléaire in France. Additionally, he has played a crucial role in academic leadership, serving as a professor at multiple universities and contributing to curriculum development in interdisciplinary science and technology programs. His extensive work in science policy, public engagement, and international collaborations has solidified his reputation as a leader in nuclear science and its applications.
Professional Profile
Education
Prof. Andrés J. Kreiner pursued his higher education in physics, earning a Ph.D. in Natural Sciences from the Technical University of Munich, Germany. His doctoral research focused on nuclear spectroscopy and accelerator technology, laying the foundation for his extensive contributions to nuclear physics and medical applications. Prior to his Ph.D., he completed his undergraduate studies in physics, where he developed a strong background in nuclear reactions and experimental techniques. Throughout his academic journey, he engaged in multidisciplinary research, gaining expertise in areas such as boron neutron capture therapy (BNCT) and proton therapy. His education was further enriched by international collaborations and research stays at renowned institutions, including Brookhaven National Laboratory and Oak Ridge National Laboratory. His commitment to academic excellence and continuous learning has played a pivotal role in shaping his career, enabling him to lead groundbreaking research projects and mentor future generations of scientists in nuclear and medical physics.
Professional Experience
Prof. Andrés J. Kreiner has had a distinguished career in nuclear physics, with extensive contributions to both fundamental research and applied sciences. He has held key academic and research positions, including his long-standing role at the National Atomic Energy Commission (CNEA) of Argentina, where he has been instrumental in advancing nuclear applications in medicine and industry. His expertise in accelerator-based nuclear reactions and boron neutron capture therapy (BNCT) has led to pioneering developments in cancer treatment. He has also collaborated with leading international institutions such as Brookhaven National Laboratory and Oak Ridge National Laboratory, enhancing global research efforts in nuclear spectroscopy and particle accelerator technologies. In addition to his research, Prof. Kreiner has mentored numerous students and contributed significantly to scientific literature, strengthening Argentina’s position in the field of nuclear physics. His professional career is marked by innovation, interdisciplinary collaboration, and a commitment to advancing both theoretical and applied nuclear science.
Research Interest
Prof. Andrés J. Kreiner’s research interests lie at the intersection of nuclear physics, medical applications, and accelerator technology. His work focuses on nuclear reactions, spectroscopy, and the development of particle accelerators for both fundamental studies and applied sciences. A significant area of his research is Boron Neutron Capture Therapy (BNCT), a cutting-edge cancer treatment method that utilizes neutron beams to target malignant cells selectively. He has also contributed extensively to the advancement of accelerator-driven neutron sources, with applications in medicine, industry, and materials science. His studies in nuclear instrumentation and radiation detection have played a crucial role in improving diagnostic and therapeutic technologies. Prof. Kreiner’s interdisciplinary approach integrates physics, engineering, and medical sciences, fostering collaborations with international research institutions. Through his contributions, he has advanced the understanding of nuclear interactions and their practical applications, particularly in healthcare and radiation-based technologies, making a lasting impact on the field.
Award and Honor
Prof. Andrés J. Kreiner has received numerous awards and honors in recognition of his outstanding contributions to nuclear physics, accelerator technology, and medical applications such as Boron Neutron Capture Therapy (BNCT). His pioneering work in neutron-based cancer treatment and accelerator-driven neutron sources has earned him prestigious accolades from scientific institutions and professional organizations worldwide. He has been honored by national and international physics societies for his research excellence, leadership, and innovation in nuclear science and its applications. His contributions have also been recognized through invited lectures, keynote speeches, and memberships in esteemed scientific committees. Additionally, Prof. Kreiner has played a key role in advancing collaborative research efforts, earning recognition from academic institutions and research centers. His dedication to scientific progress, particularly in the medical and nuclear physics domains, has cemented his reputation as a leading figure in the field, with awards that reflect his impact on both science and society.
Research Skill
Prof. Andrés J. Kreiner possesses a diverse and advanced set of research skills, particularly in the fields of nuclear physics, accelerator technology, and medical applications such as Boron Neutron Capture Therapy (BNCT). His expertise includes the development and optimization of particle accelerators, neutron sources, and radiation detectors for scientific and medical purposes. He has extensive experience in experimental physics, computational modeling, and data analysis, which he applies to improve neutron-based therapies and nuclear instrumentation. His ability to integrate theoretical knowledge with practical applications has led to significant advancements in nuclear medicine and radiation technology. Additionally, Prof. Kreiner has strong collaborative and interdisciplinary research skills, working with scientists, engineers, and medical professionals to develop innovative solutions. His proficiency in scientific communication, project management, and grant writing has facilitated numerous successful research initiatives, making him a recognized leader in his field. His work continues to shape the future of nuclear and medical physics.
Conclusion
Andrés Juan Kreiner is an exceptionally strong candidate for the Best Researcher Award. His groundbreaking contributions in nuclear physics, accelerator technology, and medical applications, combined with his leadership in major scientific institutions, make him highly deserving. While adding more recent international recognitions and emphasizing his publication impact could further solidify his case, his vast experience and impact on both research and applied sciences position him as a top contender for this prestigious award.
Publications Top Noted
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Title: Present status of accelerator-based BNCT
Authors: AJ Kreiner, J Bergueiro, D Cartelli, M Baldo, W Castell, JG Asoia, …
Year: 2016
Citation: 169
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Title: Study of atmospheric particulate matter in Buenos Aires city
Authors: H Bogo, M Otero, P Castro, MJ Ozafrán, A Kreiner, EJ Calvo, RM Negri
Year: 2003
Citation: 143
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Title: Concentrations and elemental composition of particulate matter in the Buenos Aires underground system
Authors: LG Murruni, V Solanes, M Debray, AJ Kreiner, J Davidson, M Davidson, …
Year: 2009
Citation: 103
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Title: Rotational structures in doubly odd 198Tl
Authors: AJ Kreiner, M Fenzl, S Lunardi, MAJ Mariscotti
Year: 1977
Citation: 95
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Title: Coriolis-Distorted Bands of Common g9/2 Parentage in Odd and Doubly Odd N= 41 Nuclei
Authors: AJ Kreiner, MAJ Mariscotti
Year: 1979
Citation: 94
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Title: Experimental and theoretical radiation damage studies on crystalline silicon solar cells
Authors: M Alurralde, MJL Tamasi, CJ Bruno, MGM Bogado, J Plá, JF Vázquez, …
Year: 2004
Citation: 93
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Title: High-spin states in doubly odd and signature inversion in structures
Authors: MA Cardona, AJ Kreiner, D Hojman, G Levinton, ME Debray, M Davidson, …
Year: 1999
Citation: 77
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Title: Accelerator-based BNCT
Authors: AJ Kreiner
Year: 2012
Citation: 74
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Title: Band structure in and the different coupling schemes in a deformed doubly odd nucleus
Authors: AJ Kreiner, J Davidson, M Davidson, D Abriola, C Pomar, P Thieberger
Year: 1987
Citation: 69
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Title: Induction and rejoining of DNA double strand breaks assessed by H2AX phosphorylation in melanoma cells irradiated with proton and lithium beams
Authors: IL Ibañez, C Bracalente, BL Molinari, MA Palmieri, L Policastro, AJ Kreiner, …
Year: 2009
Citation: 67
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Title: Evidence for Predicted Level Crossings in π ̃ h9/2 ⊗ ν ̃ i13/2 Bands in Very Neutron-Deficient, Doubly Odd T1 Isotopes
Authors: AJ Kreiner, C Baktash, GG Bermudez, MAJ Mariscotti
Year: 1981
Citation: 67
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Title: Structure in Tl 200 and the odd-even staggering in π ̃ h9/2 ⊗ ν ̃ i13/2 bands
Authors: AJ Kreiner, MAJ Mariscotti, C Baktash, E Der Mateosian, P Thieberger
Year: 1981
Citation: 67
