Eugene Mananga | Physics | Best Researcher Award

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Prof. Dr. Eugene Mananga | Physics | Best Researcher Award

Prof. Dr. Eugene Mananga, The City University of New York, United States

Dr. Eugene Stephane Mananga is an esteemed physicist with a distinguished career in research, teaching, and mentoring. He is a faculty member at the City University of New York (CUNY) and holds adjunct positions at New York University (NYU). With affiliations at Brookhaven National Laboratory, he has significantly contributed to nuclear medicine, solid-state NMR, and applied physics. Dr. Mananga’s interdisciplinary expertise spans medical physics, sustainability, and materials science. He has been recognized with prestigious awards, including the Presidential Award for Excellence in STEM Mentoring. Fluent in multiple languages, he actively participates in international collaborations, pushing the boundaries of science and education. His passion for innovation and commitment to mentoring the next generation of scientists have earned him widespread recognition. With a prolific publication record and extensive experience in research leadership, Dr. Mananga continues to shape the scientific landscape.

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Suitability of Eugene Stephane Mananga, Ph.D. for the Research for Best Researcher Award

Dr. Eugene Stephane Mananga is a distinguished physicist and researcher with an exceptional academic background, extensive teaching experience, and a strong track record in research and mentorship. His education spans prestigious institutions such as Harvard University, MIT, and the City University of New York (CUNY), reflecting a strong foundation in physics, nuclear medicine, and sustainability. His career is marked by significant research contributions, particularly in applied physics, nuclear medicine, and solid-state NMR, making him a leading expert in his field.

His numerous academic appointments, including faculty positions at CUNY, NYU, and Brookhaven National Laboratory, showcase his long-standing commitment to both research and education. As a faculty mentor at CUNY Advanced Science Research Center and a fellow at the Kavli Institute for Theoretical Physics, Dr. Mananga has demonstrated a deep commitment to fostering the next generation of scientists. His leadership roles, including serving on executive boards and directing STEM programs, further highlight his dedication to advancing science and technology.

🎓 Education

Dr. Mananga holds a Ph.D. in Physics from the City University of New York (CUNY), where he was an NSF/AGEP-MAGNET Chancellor Fellow. His academic journey includes postdoctoral research in nuclear medicine at Harvard Medical School and medical physics at Massachusetts General Hospital. He earned advanced degrees from Harvard University, Massachusetts Institute of Technology (MIT), and the University of Yaoundé. His expertise in sustainability, solid-state NMR, and applied biostatistics underscores his interdisciplinary approach to science. His education, spanning top institutions in the U.S. and France, has equipped him with a strong foundation in theoretical and applied physics. Dr. Mananga’s academic rigor and excellence are reflected in his research contributions, which bridge fundamental physics with practical applications. His diverse educational background enables him to integrate multiple scientific disciplines, making significant contributions to various research fields.

💼 Professional Experience

Dr. Mananga is a Professor of Physics at Bronx Community College (CUNY) and a Doctoral Faculty member in Chemistry and Physics at CUNY Graduate Center. He also serves as an Adjunct Professor of Applied Physics at NYU. His research affiliations include Brookhaven National Laboratory, where he works as a Visiting Scientist. He has held research fellowships at Harvard Medical School, Massachusetts General Hospital, and the French Atomic Energy Commission (CEA-Saclay). His professional appointments extend to leading roles in academic boards, mentorship programs, and DOE research initiatives. As a Faculty Mentor at CUNY Advanced Science Research Center, he actively fosters STEM excellence. His extensive leadership in research and education, combined with his participation in prestigious faculty fellowship programs at national laboratories, underscores his impact on scientific advancements and academic mentorship.

🏅 Awards and Recognition

Dr. Mananga has received numerous prestigious awards, including the 2025 Presidential Award for Excellence in STEM Mentoring from the White House. He was honored by the Borough of the Bronx for his contributions to African communities and received the 2024 SACNAS Distinguished Mentor Award. He is a selected Fellow of the Kavli Institute for Theoretical Physics and a recipient of multiple DOE Visiting Faculty Fellowships at Brookhaven and Lawrence Berkeley National Laboratories. Other accolades include the President’s Award for Excellence in Research at CUNY, a Lifetime Achievement Award from VDGOOD Professional Association, and the CUNY Junior Faculty Research Award in Science and Engineering. His consistent recognition for scientific excellence, mentoring, and leadership demonstrates his profound impact on academia and research.

🌍 Research Skills On Physics

Dr. Mananga’s research expertise spans nuclear magnetic resonance (NMR), quantum mechanics, solid-state physics, and medical imaging. His work in computational physics, biophysics, and energy sustainability has led to groundbreaking innovations. He has extensive experience in theoretical modeling, spectroscopy, and nanotechnology applications. His interdisciplinary approach integrates physics, chemistry, and engineering, enabling novel contributions to energy research and medical diagnostics. His ability to bridge fundamental science with real-world applications has made him a leader in his field. He actively collaborates with international research teams and mentors students in cutting-edge scientific projects. His diverse skill set makes him a pivotal figure in advancing physics and interdisciplinary science.

 📖 Publication Top Notes

  • Title: Introduction of the Floquet-Magnus expansion in solid-state nuclear magnetic resonance spectroscopy
    Author(s): ES Mananga, T Charpentier
    Citation Count: 107
    Year: 2011
  • Title: Facile synthesis of the Basolite F300-like nanoscale Fe-BTC framework and its lithium storage properties
    Author(s): X Hu, X Lou, C Li, Y Ning, Y Liao, Q Chen, ES Mananga, M Shen, B Hu
    Citation Count: 102
    Year: 2016
  • Title: High pressure NMR study of water self-diffusion in NAFION-117 membrane
    Author(s): JRP Jayakody, PE Stallworth, ES Mananga, J Farrington-Zapata, …
    Citation Count: 60
    Year: 2004
  • Title: On the Floquet–Magnus expansion: Applications in solid-state nuclear magnetic resonance and physics
    Author(s): ES Mananga, T Charpentier
    Citation Count: 44
    Year: 2016
  • Title: NMR investigation of water and methanol transport in sulfonated polyareylenethioethersulfones for fuel cell applications
    Author(s): JRP Jayakody, A Khalfan, ES Mananga, SG Greenbaum, TD Dang, …
    Citation Count: 36
    Year: 2006
  • Title: Finite pulse width artifact suppression in spin-1 quadrupolar echo spectra by phase cycling
    Author(s): ES Mananga, YS Rumala, GS Boutis
    Citation Count: 35
    Year: 2006
  • Title: Efficient theory of dipolar recoupling in solid-state nuclear magnetic resonance of rotating solids using Floquet–Magnus expansion: Application on BABA and C7 radiofrequency …
    Author(s): ES Mananga, AE Reid, T Charpentier
    Citation Count: 28
    Year: 2012
  • Title: On the application of magic echo cycles for quadrupolar echo spectroscopy of spin-1 nuclei
    Author(s): ES Mananga, R Roopchand, YS Rumala, GS Boutis
    Citation Count: 25
    Year: 2007
  • Title: On the Fer expansion: Applications in solid-state nuclear magnetic resonance and physics
    Author(s): ES Mananga
    Citation Count: 24
    Year: 2016
  • Title: Investigation of the effect of finite pulse errors on the BABA pulse sequence using the Floquet–Magnus expansion approach
    Author(s): ES Mananga, AE Reid
    Citation Count: 24
    Year: 2013

Maria de Lourdes Deglmann | Physics | Best Researcher Award

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Mrs. Maria de Lourdes Deglmann | Physics | Best Researcher Award

Mrs. Maria de Lourdes Deglmann, Federal University of Santa Catarina, Brazil

Maria de Lourdes Zamboni Peixoto Deglmann is a PhD candidate at the Federal University of Santa Catarina (UFSC), specializing in Mathematical Physics and Field Theory. With a deep interest in the nature of Dark Energy, she explores quintessence models and their impact on fundamental physics. She earned her Master’s degree in Mathematical Physics and Field Theory (2019) and a Bachelor’s in Physics (2017) with a Student Merit Medal, both from UFSC. Her research extends to Abelian and non-Abelian Field Theories, with publications in prestigious journals such as the Journal of High Energy Physics, Physics Letters B, and Annals of Physics. Beyond theoretical physics, Maria is passionate about scientific education and climate change advocacy. Actively collaborating with researchers, she is dedicated to pushing the boundaries of knowledge in gravitation and field theory, making significant contributions to our understanding of the universe.

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Suitability for the Best Researcher Award – Maria de Lourdes Zamboni Peixoto Deglmann

Maria de Lourdes Zamboni Peixoto Deglmann demonstrates strong academic and research credentials, making her a promising candidate for the Best Researcher Award. As a PhD candidate in Mathematical Physics and Field Theory at the Federal University of Santa Catarina (UFSC), her work focuses on the implications of Quintessence models in understanding Dark Energy. Her background includes a Master’s in Mathematical Physics and Field Theory (2019) and a Bachelor’s in Physics (2017), where she was awarded a Student Merit Medal. Her expertise in Abelian and non-Abelian Field Theories, coupled with her research in quantum implications of dark energy, showcases her significant contributions to theoretical physics.

Her research output is impressive, with publications in top-tier journals such as the Journal of High Energy Physics, Physics Letters B, and Annals of Physics. Her recent work introduces a novel “dark phase” effect, potentially leading to observable signatures of dark energy. Additionally, her study on a non-Abelian magnetic monopole as a dark matter candidate reflects her ability to engage in cutting-edge theoretical physics research. While her h-index (1) is still developing, this is expected for a PhD student early in their career. Her membership in the Brazilian Physical Society (SBF) and the Brazilian Society for the Advancement of Science (SBPC) further validates her professional standing.

🎓 Education 

Maria de Lourdes Zamboni Peixoto Deglmann holds a Bachelor’s degree in Physics from UFSC (2017), where she received the Student Merit Medal for outstanding academic performance. She continued her studies with a Master’s in Mathematical Physics and Field Theory (2019), focusing on the mathematical underpinnings of quantum field theories. Currently, as a PhD candidate in Physics at UFSC, her research investigates quintessence models and their implications for Dark Energy. Her academic journey is marked by rigorous coursework in advanced mathematical methods, general relativity, quantum mechanics, and field theory. Throughout her education, she has engaged in research projects involving Abelian and non-Abelian field theories, contributing to fundamental advancements in theoretical physics. Her commitment to academic excellence is reflected in her published works, which address intricate aspects of quantum field interactions and gravitational effects. Maria’s educational background equips her with the expertise to explore cutting-edge topics in modern physics.

💼 Professional Experience 

Maria de Lourdes Zamboni Peixoto Deglmann has extensive research experience in theoretical and mathematical physics. As a PhD candidate at UFSC, she delves into quintessence models and their impact on Dark Energy, expanding the understanding of spin-0 particle interactions near event horizons. She has worked on multiple high-level projects, including investigations into non-Abelian magnetic monopoles as Dark Matter candidates. Her research has led to publications in top-tier journals such as the Journal of High Energy Physics, Physics Letters B, and Annals of Physics. Maria actively collaborates with physicists and contributes to scientific discussions on gravitation, quantum fields, and cosmology. She has also participated in academic conferences, presenting her findings to the global physics community. In addition to her research, she advocates for scientific literacy and climate awareness. Her professional journey exemplifies a strong commitment to advancing knowledge in fundamental physics and fostering scientific dialogue.

🏅 Awards and Recognition 

Maria de Lourdes Zamboni Peixoto Deglmann has received multiple accolades for her academic excellence and research contributions. She was awarded the Student Merit Medal during her undergraduate studies at UFSC in recognition of her outstanding academic achievements. Her research in Mathematical Physics and Field Theory has been published in high-impact journals, solidifying her reputation in the scientific community. Maria has been recognized for her work on quintessence models and their implications for Dark Energy, earning invitations to present at prestigious physics conferences. She is an active member of the Brazilian Physical Society (SBF) and the Brazilian Society for the Advancement of Science (SBPC), where she contributes to discussions on cutting-edge theoretical physics. Her innovative research on non-Abelian field theories and gravitational effects has positioned her as a promising physicist in her field. Maria’s dedication to academic excellence continues to earn her recognition among peers and mentors alike.

🌍 Research Skills On Physics

Maria de Lourdes Zamboni Peixoto Deglmann possesses a diverse set of research skills in theoretical and mathematical physics. Her expertise spans quantum field theory, general relativity, and cosmology, with a focus on quintessence models and Dark Energy. She is proficient in analytical techniques for solving differential equations in field theory, as well as computational methods for simulating gravitational interactions. Maria has a strong grasp of Abelian and non-Abelian gauge theories, allowing her to explore magnetic monopoles and their role in dark matter physics. Her ability to synthesize complex theoretical concepts into publishable research has led to multiple journal publications. She is skilled in LaTeX, Mathematica, and Python for scientific computing. Additionally, Maria actively collaborates with researchers, contributing to joint publications and interdisciplinary projects. Her ability to bridge mathematical rigor with physical intuition makes her a valuable contributor to modern theoretical physics.

📖 Publication Top Notes

  1. Publication: Dark Monopoles in Grand Unified Theories
    • Authors: MLZP Deglmann, MAC Kneipp
    • Citation: Journal of High Energy Physics 2019 (01), 23
    • Year: 2019
  2. Publication: Black strings and string clouds embedded in anisotropic quintessence: Solutions for scalar particles and implications
    • Authors: ML Deglmann, LG Barbosa, CC Barros Jr.
    • Citation: DOI: 10.1016/j.aop.2025.169948
    • Year: 2025
  3. Publication: Asymptotic stability analysis for SU (n) dark monopoles
    • Authors: ML Deglmann, MAC Kneipp
    • Citation: Physics Letters B 806, 135476
    • Year: 2020

Muhammad Iqbal Hussain | Physics | Best Researcher Award

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Mr. Muhammad Iqbal Hussain | Physics | Best Researcher Award

Mr. Muhammad Iqbal Hussain, University of Education, Lahore, Pakistan

Dr. Muhammad Iqbal Hussain is an accomplished physicist and educator with a strong background in condensed matter physics and optoelectronic applications. Born on April 1, 1981, in Muzaffar Garh, Pakistan, he has dedicated his career to research, teaching, and academic administration. Currently serving as a Lecturer at the University of Education, Lahore (Multan Campus), Dr. Hussain has made significant contributions to the field through his research on perovskite materials and quantum optics. His academic excellence is reflected in his first-class academic record and his active role in supervising MS and BS research projects. Additionally, he has held key administrative positions, contributing to academic policy and institutional development. With expertise in computational physics and structural analysis, Dr. Hussain continues to advance knowledge in physics while mentoring the next generation of scientists.

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Summary of Suitability for the Award

Muhammad Iqbal Hussain is a well-qualified and dedicated researcher in the field of Physics, particularly in Condensed Matter Physics and Optoelectronic Applications. His academic journey includes an MSc in Industrial Electronics, an MPhil in Physics, and a PhD (submitted) focusing on Perovskite Materials for Optoelectronic Applications. His strong academic background, coupled with his commitment to scientific research, makes him a strong contender for the Research for Best Researcher Award.

His research contributions include supervision of multiple BS and MS theses related to computational and optoelectronic properties of perovskites, which are pivotal in modern material science and energy applications. His teaching experience at the University of Education, Lahore, spans a range of physics disciplines, from Quantum Mechanics and Electrodynamics to Computational Physics and Thermodynamics, demonstrating his breadth of expertise and ability to mentor students in high-level physics research.

🎓 Education

Dr. Muhammad Iqbal Hussain holds an impressive academic background in physics. He completed his Secondary School Certificate at Govt. High School, Gourmani, securing first division. He then pursued an F.Sc. in Pre-Engineering from Govt. Degree College Muzaffar Garh. His higher education journey continued with a B.Sc. in Physics and Mathematics, followed by an MSc in Physics with a specialization in Industrial Electronics from Bahauddin Zakariya University (BZU), Multan. Excelling in quantum mechanics and electronics, he secured second place in his MSc batch. He further advanced his studies with an M.Phil. in Physics from COMSATS Institute of Information Technology, specializing in quantum optics and plasma physics. His doctoral research at BZU focused on the first-principles study of perovskite materials for optoelectronic applications. His strong academic record and research focus highlight his dedication to advancing physics through both theoretical and applied research.

💼 Professional Experience

Dr. Muhammad Iqbal Hussain has amassed extensive experience in both teaching and administration. Since 2017, he has been a Lecturer in the Department of Physics at the University of Education, Lahore (Multan Campus), where he teaches physics courses at the BS and MSc levels and supervises research projects. His administrative expertise includes roles such as Deputy Director (Management) and Assistant Director at the university’s Registrar’s Office, handling faculty appointments, academic policies, and high-level committee meetings. Additionally, he served as an Administrative Officer, overseeing faculty development programs and PhD-related matters. His leadership extends to coordinating sports and security at the university. With a keen focus on integrating research and academia, Dr. Hussain’s experience reflects his commitment to fostering scientific inquiry, institutional growth, and student mentorship in the field of physics.

🏅 Awards and Recognition 

Dr. Muhammad Iqbal Hussain’s academic journey is marked by numerous accolades. He secured second position in MSc Physics at Bahauddin Zakariya University, Multan, demonstrating his excellence in quantum mechanics and industrial electronics. Throughout his academic career, he has consistently achieved first-class distinctions, except for his F.Sc. His contributions to academia are further recognized through his membership in the Board of Studies at the University of Education, Lahore. His dedication to research has been acknowledged through invitations to supervise M.Phil. and BS theses, particularly in computational physics and condensed matter studies. His administrative skills have also been recognized through his leadership roles, including Deputy Director and Assistant Director at the university’s Registrar’s Office. His reputation as a dedicated educator, researcher, and administrator makes him a distinguished figure in the academic and scientific community.

🌍 Research Skills On Physics

Dr. Muhammad Iqbal Hussain possesses advanced research skills in computational physics, condensed matter physics, and optoelectronic materials. His expertise lies in Density Functional Theory (DFT) simulations, first-principles calculations, and structural analysis of perovskite materials for energy applications. His M.Phil. research focused on entangled coherent states and quantum optics, while his PhD research explored the optoelectronic properties of perovskite materials. He has supervised multiple BS and MS research projects involving ab-initio studies of ternary perovskites and energy-harvesting materials. Dr. Hussain is proficient in programming languages and software tools for physics simulations, enabling him to conduct high-precision computational studies. His research output includes publications in high-impact journals, reflecting his contributions to advancing material science and photonics. His ability to integrate theoretical and applied physics makes him a key contributor to modern scientific advancements.

📖 Publication Top Notes

  • Title: Investigations of structural, electronic and optical properties of TM-GaO₃ (TM= Sc, Ti, Ag) perovskite oxides for optoelectronic applications: a first principles study
    • Authors: Muhammad Iqbal Hussain, R. M. Arif Khalil, Fayyaz Hussain, Muhammad Imran, Anwar Manzoor Rana, Sungjun Kim
    • Journal: Materials Research Express
    • Volume: 7
    • Issue: 1
    • Article Number: 015906
    • Year: 2020
    • Citations: 65
  • Title: DFT based first principles study of novel combinations of perovskite‐type hydrides XGaH₃ (X= Rb, Cs, Fr) for hydrogen storage applications
    • Authors: R. M. Arif Khalil, Saba Hayat, Muhammad Iqbal Hussain, Anwar Manzoor Rana, Fayyaz Hussain
    • Journal: AIP Advances
    • Volume: 11
    • Issue: 2
    • Year: 2021
    • Citations: 64
  • Title: First-principles investigations of the structural, optoelectronic, magnetic and thermodynamic properties of hydride perovskites XCuH₃ (X= Co, Ni, Zn) for hydrogen storage
    • Authors: Saba Hayat, R. M. Arif Khalil, Muhammad Iqbal Hussain, Anwar Manzoor Rana, Fayyaz Hussain
    • Journal: Optik
    • Volume: 228
    • Article Number: 166187
    • Year: 2021
    • Citations: 58
  • Title: Investigations of structural, electronic and optical properties of YInO₃ (Y= Rb, Cs, Fr) perovskite oxides using mBJ approximation for optoelectronic applications: a first principles study
    • Authors: Muhammad Iqbal Hussain, R. M. Arif Khalil, Fayyaz Hussain, Muhammad Imran, Anwar Manzoor Rana, Sungjun Kim
    • Journal: Materials Science in Semiconductor Processing
    • Volume: 113
    • Article Number: 105064
    • Year: 2020
    • Citations: 53
  • Title: A DFT study of perovskite type halides KBeBr₃, RbBeBr₃, and CsBeBr₃ in triclinic phase for advanced optoelectronic devices
    • Authors: Saba Hayat, R. M. Arif Khalil, Muhammad Iqbal Hussain, Anwar Manzoor Rana, Fayyaz Hussain
    • Journal: Solid State Communications
    • Volume: 344
    • Article Number: 114674
    • Year: 2022
    • Citations: 44
  • Title: DFT‐based insight into the magnetic and thermoelectric characteristics of XTaO₃ (X = Rb, Fr) ternary perovskite oxides for optoelectronic applications
    • Authors: Muhammad Iqbal Hussain, R. M. Arif Khalil, Fayyaz Hussain, Anwar Manzoor Rana
    • Journal: International Journal of Energy Research
    • Volume: 45
    • Issue: 2
    • Pages: 2753-2765
    • Year: 2021
    • Citations: 40
  • Title: Computational exploration of structural, electronic, and optical properties of novel combinations of inorganic Ruddlesden–Popper layered perovskites Bi₂XO₄ (X= Be, Mg) using first principles
    • Authors: Muhammad Iqbal Hussain, R. M. Arif Khalil, Fayyaz Hussain
    • Journal: Energy Technology
    • Volume: 9
    • Issue: 5
    • Article Number: 2001026
    • Year: 2021
    • Citations: 39
  • Title: Probing the structural, electronic, mechanical strength and optical properties of tantalum-based oxide perovskites ATaO₃ (A= Rb, Fr) for optoelectronic applications: First principles study
    • Authors: Muhammad Iqbal Hussain, R. M. Arif Khalil, Fayyaz Hussain, Anwar Manzoor Rana, Ghulam Murtaza, Muhammad Imran
    • Journal: Optik
    • Volume: 219