Prof. Marilyn E Noz |Physics |Best Researcher Award

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Prof. Marilyn E Noz|Physics |Best Researcher Award

Professor. Marilyn E Noz at New York University, United States

Dr. Marilyn E. Noz 🇺🇸, born June 17, 1939, in New York City 🗽, is a trailblazing physicist and educator whose pioneering work bridges theoretical physics and medical imaging. With a Ph.D. in Physics from Fordham University 🎓, she emerged as a powerful voice in nuclear medicine and radiological research. Serving NYU’s School of Medicine for over four decades 🏥, she rose from Assistant Professor to Professor Emerita and Research Professor. Her accolades include awards from renowned bodies like the Society of Nuclear Medicine and Radiological Society of North America 🏆. A licensed Medical Physicist and diplomate of multiple scientific boards, Dr. Noz is recognized globally for CT/SPECT fusion advancements and nuclear magnetic resonance insights 💡. Her dedication to education, research, and clinical innovation marks her as a luminary in the intersection of physics and medicine 🌟.

Professional Profile 

🎓 Education

Dr. Marilyn E. Noz’s academic path is as illustrious as her career. She graduated summa cum laude in Mathematics from Marymount College in 1961, setting a strong foundation in analytical thinking and scientific curiosity 🧮. She pursued both her M.S. and Ph.D. in Physics at Fordham University, completing them in 1963 and 1969 respectively ⚛️. Her commitment to academic excellence was recognized through numerous fellowships and scholarships, including the National Defense Education Act Fellowship and the New York State Regents Fellowship 🏅. This scholarly journey laid the groundwork for her later groundbreaking contributions to nuclear medicine and radiological science. Her educational philosophy continues to inspire aspiring physicists and medical professionals alike 📚.

👩‍🔬 Professional Experience

Dr. Noz’s professional journey spans prestigious institutions and critical innovations. Beginning as a professor at Marymount College in the 1960s, she shaped young scientific minds while holding leadership roles 👩‍🏫. Her career blossomed at New York University’s Department of Radiology, where she spent over three decades—from Assistant Professor to Research Professor and Professor Emerita 🏛️. She held concurrent roles at Tisch Hospital and Bellevue Hospital, enhancing clinical radiology practice. Her adjunct positions at Manhattan College and Iona College reflect her dedication to sharing knowledge across disciplines 🌐. Notably, she played a pivotal role in advancing nuclear medicine physics and medical imaging integration, leaving an indelible mark on academic and clinical settings 🧬.

🔬 Research Interest

Dr. Noz’s research traverses the dynamic interface between physics and medicine. Her primary focus lies in nuclear medicine physics, SPECT/CT fusion, and nuclear magnetic resonance 🧠. She is known for pioneering the integration of cross-sectional imaging modalities, improving diagnostic accuracy and patient care through novel imaging algorithms and data interpretation techniques 🖥️. Her work in radiation protection and computational physics has also made significant contributions to the safety and efficacy of imaging technologies ☢️. As a physicist deeply invested in translational science, Dr. Noz has published extensively and mentored future leaders in medical physics, bridging theoretical insight with clinical innovation seamlessly 🔗.

🏅 Awards and Honors

Throughout her distinguished career, Dr. Noz has received numerous prestigious awards celebrating her research excellence and innovation 🌟. Highlights include the Giovanni DiChiro Award for outstanding research in the Journal of Computer Assisted Tomography, and several Cum Laude honors from the Society of Computed Body Tomography 🧾. Her work in CT/SPECT fusion earned multiple scientific exhibit awards, showcasing her ingenuity in imaging science 🎖️. She was a finalist for the ComputerWorld-Smithsonian Institute Awards and honored with a Senior International Research Fellowship by the NIH’s Fogarty International Center 🌍. These accolades underscore her enduring impact and peer recognition across interdisciplinary fields 🧪.

📚 Publications Top Note 

1. Can Na¹⁸F PET/CT bone scans help when deciding if early intervention is needed in patients being treated with a TSF attached to the tibia: insights from 41 patients

⚛️ 2. Integration of Dirac’s efforts to construct a quantum mechanics which is Lorentz‑covariant

  • Authors: Young S. Kim, Marilyn E. Noz

  • Year: 2020

  • Citations: 1

  • Source: Symmetry

  • Summary: This paper synthesizes Dirac’s 1927, 1945, 1949, and 1963 efforts to reconcile quantum mechanics with Lorentz covariance. It explains his use of Gaussian localization, light-cone coordinates, “instant form,” and coupled oscillators to derive Lorentz group representations, ultimately yielding a Lorentz‑covariant harmonic oscillator framework Colab+3arXiv+3arXiv+3bohr.physics.berkeley.edu+11MDPI+11arXiv+11.

🦴 3. Accuracy and precision of a CT method for assessing migration in shoulder arthroplasty: an experimental study

🧬 4. Einstein’s E = mc² derivable from Heisenberg’s uncertainty relations

  • Authors: Sibel Başkal, Young S. Kim, Marilyn E. Noz

  • Year: 2019

  • Citations: 5

  • Source: Quantum Reports

  • Summary: This theoretical paper demonstrates that the Lie algebra of the Poincaré group (and thus mass–energy equivalence) can emerge naturally from Heisenberg’s uncertainty relations. Using harmonic oscillators and signal‑space group contractions (O(3,2) → Poincaré), they derive E = mc² Inspire+15MDPI+15arXiv+15ysfine.com+1arXiv+1.

📷 5. Are low‑dose CT scans a satisfactory substitute for stereoradiographs for migration studies? A preclinical test…

  • Authors: Eriksson T, Maguire GQ Jr, Noz M.E., Zeleznik M.P., Olivecrona H., Shalabi A., Hänni M.

  • Year: 2019

  • Citations: 13

  • Source: Acta Radiologica

  • Summary: The authors tested multiple low‑dose CT protocols in a hip phantom and a pilot patient, finding that selected protocols (≈0.70 mSv) provided migration measurement precision comparable to standard RSA, demonstrating CT’s promise as a lower-dose, reliable tool link.springer.com+15PubMed+15Colab+15Colab+1ous-research.no+1.

🔄 6. Poincaré symmetry from Heisenberg’s uncertainty relations

  • Authors: (Likely similar to above)

  • Year: 2019

  • Citations: 4

  • Source: Symmetry

  • Summary: This related work further details how expanding from one to two oscillators in the Heisenberg framework leads to the de Sitter group, which can be contracted to the Poincaré group. It highlights a structural derivation of spacetime symmetries using quantum uncertainty Colabysfine.com+1arXiv+1.

🦴 7. Motion analysis in lumbar spinal stenosis with degenerative spondylolisthesis: A feasibility study of the 3DCT technique comparing laminectomy versus bilateral laminotomy

  • Authors: Not fully listed

  • Year: 2018

  • Citations: 6

  • Source: Clinical Spine Surgery

  • Summary: This feasibility study used 3D CT motion analysis to compare two spinal decompression techniques. Although article details are limited, it evaluated kinematic differences following laminectomy and bilateral laminotomy.

🦴 8. Prosthetic liner wear in total hip replacement: a longitudinal 13‑year study with computed tomography

  • Authors: Not fully listed

  • Year: 2018

  • Citations: 7

  • Source: Skeletal Radiology

  • Summary: This long-term CT-based evaluation tracked in vivo liner wear in total hip replacements over 13 years, offering valuable longitudinal data on implant durability and wear behavior.

📘 9. New perspectives on Einstein’s E = mc²

  • Authors: (Not specified)

  • Year: (Not specified, presumably recent)

  • Citations: 1

  • Source: Book

  • Summary: Presents fresh theoretical insights and interpretations surrounding mass–energy equivalence. Likely synthesizes recent research building on Dirac and uncertainty-related frameworks.

🔄 10. Loop representation of Wigner’s little groups

  • Authors: Not listed

  • Year: 2017

  • Citations: 3

  • Source: Symmetry

  • Summary: Investigates representations of Wigner’s little groups (subgroups of the Lorentz group preserving particle momentum) via loop structures, contributing to our understanding of relativistic particle symmetries.

🧭 Conclusion

Dr. Marilyn E. Noz stands as a beacon of scientific integrity, academic rigor, and humanistic contribution to medicine and physics 🌈. Her legacy is reflected not only in her groundbreaking research but also in her mentorship, teaching, and service to institutions that shape healthcare innovation 🏥. Through her interdisciplinary expertise and visionary leadership, she helped transform diagnostic imaging, elevate standards in medical physics, and inspire generations of scientists 📈. Even in emerita status, her influence resonates through her publications, innovations, and the many professionals she has mentored. A true pioneer, Dr. Noz exemplifies what it means to blend intellect, compassion, and purpose into a lifetime of contribution 🙌.

Sergei Badulin | Physics | Best Paper Award

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Dr. Sergei Badulin | Physics | Best Paper Award

Head of laboratory at P.P.Shirshov Institute of Oceanology, Russia

Sergei I. Badulin is a distinguished Russian physicist renowned for his deep contributions to nonlinear ocean wave dynamics. With an academic journey rooted in the elite Moscow Institute of Physics and Technology, he earned both his PhD and D.Sc. in physics and mathematics, focusing on wave transformations and ocean forecasting. He currently leads the Nonlinear Wave Processes Laboratory at the P.P. Shirshov Institute of Oceanology and holds senior positions at top Russian institutions including Skolkovo Institute of Science and Technology. His international impact is marked by multiple research visits to Japan and France. Badulin’s research portfolio spans the theoretical and experimental study of oceanic gravity waves, wind-sea forecasting, and remote sensing of sea surfaces 🌊📡. Honored as an MIPT graduate with distinction, his scholarly legacy continues to inspire in both academia and applied marine science. His profound scientific insights contribute significantly to ocean monitoring and global environmental understanding 🌍🧠.

Professional Profile 

Orcid

Scopus

Google Scholar

🎓 Education

Sergei Badulin’s academic excellence was cultivated at the prestigious Moscow Institute of Physics and Technology (MIPT), where he graduated with honors in 1982, specializing in aero- and thermodynamics ✈️🔥. He went on to earn a PhD in Physics and Mathematics in 1985, with a focus on the transformation of internal ocean waves in hydrological field inhomogeneities 🌊📘. Demonstrating an enduring commitment to academic excellence, he further achieved a Doctor of Science (D.Sc.) degree in 2009, centered on wave dynamics for ocean forecasting and monitoring. He also pursued French language studies between 1983–1985, reflecting his preparedness for international collaboration. His rigorous educational background has empowered him to bridge theoretical physics and marine science with precision and innovation 📚⚛️. This strong foundation continues to underpin his impactful research across global oceanographic institutions.

👨‍🔬 Professional Experience

Prof. Badulin’s career trajectory reflects both academic leadership and international collaboration. Since 2013, he has served as Head of the Nonlinear Wave Processes Laboratory at the P.P. Shirshov Institute of Oceanology. Additionally, he is a Senior Research Scientist at the Skolkovo Institute of Science and Technology (since 2019) and has held leading roles at P.N. Lebedev Physical Institute, Novosibirsk State University, and Russian State Hydrometeorological University 🏛️💼. Earlier in his career, he contributed extensively as a researcher at the Atlantic Branch of the Institute of Oceanology in Kaliningrad. His international engagements include visiting scientist positions in Japan (1998) and France (1993–1996), enriching his global research impact 🌐🔬. From junior researcher to lab head, his journey spans over three decades, reflecting sustained excellence and leadership in the marine physics community. His professional record is a benchmark in ocean wave modeling and environmental forecasting 📈🌊.

🔬 Research Interests

Sergei Badulin is widely respected for his pioneering research in nonlinear wave dynamics, specializing in both internal and surface gravity waves in oceans. His work integrates theoretical modeling, experimental observation, and remote sensing technologies to enhance understanding of wave transformation, energy propagation, and sea state forecasting 🌊📡. His contributions help improve the prediction of wind-generated waves and offer practical insights into climate modeling and marine navigation safety. Furthermore, Badulin’s findings support advancements in satellite remote sensing and monitoring systems for oceanic conditions, crucial for both scientific inquiry and global environmental policy. His deep involvement in collaborative projects with institutions in France and Japan has broadened the scope and precision of his marine studies 📘🌐. Overall, his research continues to push the boundaries of fluid dynamics and earth system sciences, addressing both theoretical challenges and real-world marine applications with clarity and depth 🌍🔭.

🏅 Awards and Honors

Sergei I. Badulin was honored as a top graduate of MIPT in 1982, a significant early recognition that foreshadowed a highly productive academic life 🎓✨. His scientific career has since been marked by prestigious roles in Russia’s foremost research institutions, including the Russian Academy of Sciences and Skolkovo Tech. Though not widely publicized, his long-standing leadership and research excellence reflect an implicit acknowledgment of his standing in the field. His international fellowships and visiting scientist appointments in Japan and France underscore his recognition on the global stage 🌍🧪. These positions were not just exchanges but research-driven appointments at top-tier institutions, evidencing peer recognition. His continuous engagement as a leading scientist over decades is itself a professional accolade, showing trust in his expertise and thought leadership. Badulin’s reputation is further enhanced by the success and longevity of the laboratory he directs, setting standards in nonlinear ocean wave research 🧠🔬.

📚 Publications Top Note 

1. Altimetry for the future: Building on 25 years of progress

  • Authors: S. Abdalla, A.A. Kolahchi, M. Ablain, S. Adusumilli, S.A. Bhowmick, et al.

  • Year: 2021

  • Citations: 227

  • Source: Advances in Space Research, Vol. 68(2), pp. 319–363

  • Summary:
    This review presents a comprehensive overview of the progress in satellite altimetry over 25 years, detailing the evolution of instruments, data accuracy improvements, and future missions. It emphasizes how altimetry has revolutionized oceanography, hydrology, and climate monitoring, and outlines recommendations for the next generation of missions.

2. Weakly turbulent laws of wind-wave growth

  • Authors: S.I. Badulin, A.V. Babanin, V.E. Zakharov, D. Resio

  • Year: 2007

  • Citations: 167

  • Source: Journal of Fluid Mechanics, Vol. 591, pp. 339–378

  • Summary:
    This paper develops a theoretical framework and numerical simulations supporting the weak turbulence theory for wind-wave growth. It contrasts this with empirical and spectral models, providing scaling laws for wave energy and emphasizing nonlinearity and energy flux mechanisms in sea wave evolution.

3. Self-similarity of wind-driven seas

  • Authors: S.I. Badulin, A.N. Pushkarev, D. Resio, V.E. Zakharov

  • Year: 2005

  • Citations: 146

  • Source: Nonlinear Processes in Geophysics, Vol. 12(6), pp. 891–945

  • Summary:
    The paper explores the concept of self-similarity in wind-driven ocean waves, applying nonlinear wave theory. The authors validate theoretical results with both observational data and numerical simulations, revealing self-similar behavior across various fetch-limited and duration-limited growth conditions.

4. On weakly turbulent scaling of wind sea in simulations of fetch-limited growth

  • Authors: E. Gagnaire-Renou, M. Benoit, S.I. Badulin

  • Year: 2011

  • Citations: 70

  • Source: Journal of Fluid Mechanics, Vol. 669, pp. 178–213

  • Summary:
    This study examines the fetch-limited growth of wind-generated waves using numerical simulations. It compares the results with weak turbulence theory predictions and finds partial agreement, highlighting complexities in capturing real ocean conditions and wave energy distributions.

5. A model of water wave ‘horse-shoe’ patterns

  • Authors: V.I. Shrira, S.I. Badulin, C. Kharif

  • Year: 1996

  • Citations: 69

  • Source: Journal of Fluid Mechanics, Vol. 318, pp. 375–405

  • Summary:
    This theoretical study explains the formation of distinctive “horse-shoe” patterns observed in surface water waves. It uses nonlinear wave theory and geometric optics to describe the patterns as a result of wave-current interaction and spatial focusing of energy.

6. On two approaches to the problem of instability of short-crested water waves

  • Authors: S.I. Badulin, V.I. Shrira, C. Kharif, M. Ioualalen

  • Year: 1995

  • Citations: 63

  • Source: Journal of Fluid Mechanics, Vol. 303, pp. 297–326

  • Summary:
    The paper compares linear and nonlinear approaches to the instability of short-crested waves. It shows how modulational instability can lead to energy focusing and breaking, a key process in understanding wave field evolution and ocean surface turbulence.

7. A physical model of sea wave period from altimeter data

  • Author: S.I. Badulin

  • Year: 2014

  • Citations: 61

  • Source: Journal of Geophysical Research: Oceans, Vol. 119(2), pp. 856–869

  • Summary:
    This work presents a model linking satellite altimeter data to sea wave periods based on physical principles. It improves upon empirical formulations by incorporating nonlinear dynamics and provides better accuracy in estimating ocean wave fields globally.

8. Universality of sea wave growth and its physical roots

  • Authors: V.E. Zakharov, S.I. Badulin, P.A. Hwang

  • Year: 2015

  • Citations: 60

  • Source: Journal of Fluid Mechanics, Vol. 780, pp. 503–535

  • Summary:
    The authors argue for universal laws governing the growth of sea waves under wind forcing. The paper synthesizes observational data and weak turbulence theory to suggest that wave growth follows invariant scaling laws independent of environmental specifics.

9. On the irreversibility of internal-wave dynamics due to wave trapping by mean flow inhomogeneities. Part 1. Local analysis

  • Authors: S.I. Badulin, V.I. Shrira

  • Year: 1993

  • Citations: 53

  • Source: Journal of Fluid Mechanics, Vol. 251, pp. 21–53

  • Summary:
    This foundational study examines how mean flow inhomogeneities trap internal waves, leading to irreversible energy redistribution. The analysis provides insight into internal wave dynamics in oceans and their contribution to energy cascades and mixing.

10. A laboratory study of the transformation of regular gravity-capillary waves in inhomogeneous flows

  • Authors: S.I. Badulin, K.V. Pokazayev, A.D. Rozenberg

  • Year: 1983

  • Citations: 44

  • Source: Izvestiya Atmospheric and Oceanic Physics, Vol. 19(10), pp. 782–787

  • Summary:
    This experimental study investigates how gravity-capillary waves evolve in non-uniform flows. It reveals transformation effects such as amplitude modulation and wave steepening, contributing to the understanding of wave behavior in natural fluid systems.

Conclusion

Dr. Sergei I. Badulin exemplifies scientific excellence in the field of ocean physics, blending rich academic training with decades of research leadership 🌊📘. His interdisciplinary work links theoretical physics with real-world applications like marine forecasting, climate observation, and remote sensing, making his contributions both academically valuable and societally relevant 🌐⚙️. His international presence and collaborative projects reflect an openness to scientific exchange and a commitment to advancing global knowledge. As the head of a leading research laboratory and senior figure at Skolkovo Tech, Badulin continues to influence new generations of researchers and drive marine science innovation 🚀🔬. While his awards may be understated publicly, his career achievements, scholarly depth, and ongoing research activities make him an exceptional candidate for recognition such as the Best Researcher Award. His legacy is one of rigorous inquiry, impactful research, and visionary scientific leadership 🌟🏅.

Orchidea Maria Lecian | Physics | Best Researcher Award

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Assoc. Prof. Dr. Orchidea Maria Lecian | Physics | Best Researcher Award  

Assoc. Prof. Dr. Orchidea Maria Lecian, Sapienza University of Rome, Italy

Assoc. Prof. Dr. Orchidea Maria Lecian is a distinguished academic specializing in general relativity, astrophysics, quantum systems, and mathematical physics. She currently holds academic positions at Sapienza University of Rome, Italy, where she is involved with the Department of Clinical and Molecular Medicine, as well as the Department of Civil and Industrial Engineering. Additionally, she has been a visiting professor at Kursk State University in Russia. Her extensive research covers a wide array of topics in theoretical physics, including cosmology, quantum gravity, dark matter, black-hole physics, and advanced mathematical theories like differential geometry and operator algebras.

PROFILE

Orcid Profile

Educational Details

Sapienza University of Rome, Italy

Department of Clinical and Molecular Medicine

Department of Civil and Industrial Engineering

Department of Information Engineering

Professorship in Experimental Physics, Fundamentals of Physics I

Kursk State University, Russia

Faculty of Physics, Mathematics, and Information Sciences

Chair of Algebra, Geometry, and Didactics of Mathematics Theory (Visiting Professor, 2022-2023)

Comenius University in Bratislava, Slovakia

Faculty of Mathematics, Physics, and Informatics

Department of Theoretical Physics and Physics Education (KTFDF)

Professional Experience

Present:

Associate Professor in the Department of Clinical and Molecular Medicine, Sapienza University of Rome, specializing in experimental physics and applied sciences.

1 March 2023–31 August 2024:

Professorship in Fundamentals of Physics I, Department of Civil and Industrial Engineering, Sapienza University of Rome.

Professorship in Fundamentals of Physics I, Department of Information Engineering, Sapienza University of Rome.

1 October 2022–28 February 2023:

Visiting Professor, Faculty of Physics, Mathematics, and Information Sciences, Kursk State University, Russia, as part of the Ministry of Science and Higher Education of the Russian Federation’s educational program for foreign nationals.

Research Interests

General Relativity & Relativistic Astrophysics: Exploration of gravitational phenomena in the universe, including black holes, modified theories of gravity, and early cosmology.

Quantum Gravity & Quantum Cosmology: Study of the unification of quantum mechanics and general relativity, addressing issues such as dark matter and the nature of quantum systems.

Mathematical Physics & Applied Mathematics: Areas such as differential geometry, group theory, algebraic geometry, and quantum field theory.

Astrophysical Systems: Analysis of galactic and extragalactic physics, focusing on optical systems and high-energy phenomena.

Applied Instrumentation & Satellite Experimentation: Development of experimental setups and instruments for space and laboratory research, particularly in cosmology and particle physics.

Top Notable Publications

Generalized Schwarzschild Spacetimes with a Linear Term and a Cosmological Constant

Journal: Universe

Publication Date: October 30, 2024

DOI: 10.3390/universe10110408

The Generalised Reissner–Nordstrom Spacetimes, the Cosmological Constant and the Linear Term

Journal: Computation

Publication Date: August 11, 2023

DOI: 10.3390/computation11080157

Retrieval of phonemes and Kohonen algorithm

Preprint

Publication Date: July 14, 2023

DOI: 10.32388/3XRVTN

Stellar dynamics

Preprint

Publication Date: June 21, 2023

DOI: 10.32388/DZFWDZ

Depolarization block of interneurons

Preprint

Publication Date: June 6, 2023

DOI: 10.32388/XZ2QVQ

The Desymmetrized PSL(2, Z) Group; Its ‘Square-Box’ One-Cusp Congruence Subgroups

Conference Paper: Proceedings of the International Conference on Mathematical and Analytical Methods

Publication Date: April 28, 2023

DOI: 10.3390/IOCMA2023-14428

The Formalism of Milky-Way Antimatter-Domains Evolution

Journal: Galaxies

Publication Date: March 22, 2023

DOI: 10.3390/galaxies11020050

Baryon-Antibaryon Annihilation in the Evolution of Antimatter Domains in Baryon-Asymmetric Universe

Journal: Universe

Publication Date: September 15, 2021

DOI: 10.3390/universe7090347

Effects of Baryon-Antibaryon Annihilation in the Evolution of Antimatter Domains in Baryon Asymmetrical Universe

Conference Paper: Proceedings of the European Conference on Cosmology

Publication Date: February 22, 2021

DOI: 10.3390/ECU2021-09267

Conclusion

Assoc. Prof. Dr. Orchidea Maria Lecian’s extensive research output, interdisciplinary expertise, and international academic contributions make her an exemplary candidate for the Best Researcher Award. Her work not only advances understanding in core areas of physics and mathematics but also bridges academic and research communities across borders.