Ranjita Kumari Mohapatra | High energy physics | Best Researcher Award

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Assist. Prof. Dr. Ranjita Kumari Mohapatra | High energy physics | Best Researcher Award

Rajdhani College Bhubaneswar | India

Dr. Ranjita Kumari Mohapatra is an Assistant Professor at Rajdhani College in Bhubaneswar, Odisha, specializing in the field of Physics. Her academic journey spans a rich history of rigorous research, teaching, and contributions to the scientific community. With over a decade of experience, Dr. Mohapatra has made significant strides in the realm of relativistic heavy-ion collisions, strongly interacting matter, and transport coefficients.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Dr. Mohapatra’s academic foundation began with her M.Sc. in Physics from Utkal University (2004), followed by a Post-M.Sc. program at the Institute of Physics, Bhubaneswar (2005-2006). Her Ph.D. research, titled Investigating Formation and Evolution of Z(3) Walls and Flow Anisotropies in Relativistic Heavy Ion Collisions, was completed at the Institute of Physics in 2012 under the guidance of Prof. Ajit M. Srivastava.

Professional Endeavors 🏢

Dr. Mohapatra’s career trajectory includes post-doctoral fellowships at prestigious institutions such as the Physical Research Laboratory (2012-2014), IIT Bombay (2018-2019), and Banki College (2019-2023). Since February 2023, she has been serving as an Assistant Professor in the Department of Physics at Rajdhani College. Over the years, she has been involved in cutting-edge research and has become a respected educator, imparting knowledge to both undergraduate and postgraduate students.

Contributions and Research Focus 🔬

Dr. Mohapatra’s research focuses on the equation of state of strongly interacting matter, conserved charge fluctuations, and calculation of transport coefficients in relativistic heavy ion collisions. She is currently spearheading an ongoing project funded by the OURIIP seed fund with a grant of Rs. 402,000/-. Her earlier works, such as Z(3) walls and the acoustic oscillations in heavy-ion collisions, have significantly impacted the understanding of QGP (Quark-Gluon Plasma) dynamics and other key phenomena in nuclear physics.

Impact and Influence 🌍

Dr. Mohapatra’s contributions to high-energy nuclear physics are invaluable. Her work on flow anisotropies and magnetic fields in relativistic heavy-ion collisions, as well as her studies on quark-hadron transitions, have had a profound influence on the field, advancing the understanding of strongly interacting matter. Her research continues to shape the future of QCD (Quantum Chromodynamics) and phase transitions in the early universe.

Academic Citations 📑

Dr. Mohapatra has authored numerous influential publications, with more than 19 research papers in renowned journals such as Phys. Rev. C, Phys. Rev. D, and Nucl. Phys. A. Key publications, like her work on inverse magnetic catalysis and transport coefficients, have been cited widely and contribute to the ongoing discourse in nuclear physics. Her work continues to inspire researchers in the fields of quantum chromodynamics and particle physics.

Research Skills 🧠

Dr. Mohapatra’s research expertise includes relativistic hydrodynamics, QCD phase diagram, magnetic catalysis, transport coefficients, and fluctuations in heavy-ion collisions. She has developed key models for understanding conserved charge fluctuations and the influence of magnetic fields on hadron resonance gas models, with significant applications in astrophysics and nuclear physics. Her analytical and computational skills are essential in advancing the field.

Teaching Experience 📚

Dr. Mohapatra’s teaching career spans several prestigious institutions. She has served as a tutor and teaching assistant for undergraduate and postgraduate courses at IIT Bombay, where she taught subjects like nuclear theory and BTech lab courses. At Banki College and Rajdhani College, she has taught undergraduate students in Physics. With a strong pedagogical approach, she instills deep knowledge of nuclear physics and high-energy physics among her students.

Awards and Honors 🏅

Dr. Mohapatra’s scholarly achievements have earned her significant recognition. She was awarded the OURIIP Seed Fund Research Grant (2021) for her innovative research on strongly interacting matter. Her work has also been acknowledged at national and international conferences, where she has presented her research and contributed to advancing the understanding of heavy-ion collisions.

Legacy and Future Contributions 🌱

As an educator and researcher, Dr. Mohapatra continues to build a lasting legacy through her research contributions and teaching practices. Her future goals include furthering the study of QCD matter, phase transitions, and transport coefficients. Dr. Mohapatra envisions her research aiding in precision measurements and experimental predictions that could revolutionize the understanding of nuclear matter in extreme conditions.

Publications Top Notes

QCD phase diagram and the finite volume fireball: A model study
  • Authors: Shaikh, A., Mohapatra, R.K., Datta, S.
    Journal: Nuclear Physics A
    Year: 2025
Finite Volume Effects on the QCD Chiral Phase Transition Using NJL Model
  • Authors: Shaikh, A., Mohapatra, R.K., Datta, S.
    Journal: Springer Proceedings in Physics
    Year: 2024
Axion mass in a hot QCD plasma
  • Authors: Das, A., Abhishek, A., Mohapatra, R.K., Mishra, H.
    Journal: Proceedings of Science
    Year: 2023
Diffusion matrix associated with the diffusion processes of multiple conserved charges in a hot and dense hadronic matter
  • Authors: Das, A., Mishra, H., Mohapatra, R.K.
    Journal: Physical Review D
    Year: 2022
In Medium Properties of Axion Within a Polyakov Loop Enhanced Nambu-Jona-Lasinio Model
  • Authors: Mohapatra, R.K., Abhishek, A., Das, A., Mishra, H.
    Journal: Springer Proceedings in Physics
    Year: 2022

 

 

 

Luchun Du | Theoretical Advances | Best Researcher Award

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Assoc. Prof. Dr. Luchun Du | Theoretical Advances | Best Researcher Award

Yunnan University | China

Dr. Luchun Du is a distinguished academic in the field of Theoretical Physics, specializing in Statistical Physics and Nonlinear Dynamics. He has held positions as an Assistant Professor and Associate Professor at the Department of Physics, Yunnan University since 2012. His research contributions have earned him recognition both nationally and internationally, especially in areas like vibrational resonance, anomalous transport behaviors, and active particles dynamics.

👨‍🎓 Profile

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📚 Early Academic Pursuits

Dr. Luchun Du’s academic journey began at Yunnan University, where he earned his BSc in Physics (2002-2006), followed by an MSc in Theoretical Physics (2006-2009), and culminated in his PhD in Theoretical Physics (2009-2012). During his doctoral studies, he focused on stochastic resonance and bistable systems, which laid the foundation for his later research on nonlinear dynamics and statistical mechanics.

🔬 Professional Endeavors

Since 2012, Luchun Du has held faculty positions at Yunnan University, where he teaches and conducts research. He has been involved in significant projects funded by the National Natural Science Foundation of China, notably on entropic vibrational resonance (2016-2018) and anomalous transport behaviors in vibrational motors (2013-2015). Additionally, his Visiting Scholar experience at Tongji University (2019-2020) provided valuable international exposure and collaboration opportunities.

🧠 Contributions and Research Focus

Dr. Luchun Du’s research focuses primarily on statistical physics and nonlinear dynamics, with key contributions in the areas of vibrational resonance, anomalous diffusion, and ergodicity breaking. His work explores phenomena like self-propelled particles, active matter, and topological effects in diffusion, pushing the boundaries of complex systems and non-equilibrium statistical mechanics. His investigations into active particles and spatiotemporal disorder have led to groundbreaking insights into non-ergodic diffusion and superdiffusion.

🛠️ Research Skills

Dr. Luchun Du is proficient in theoretical modeling, numerical simulations, and experimental design. His research employs statistical methods, nonlinear analysis, and computational techniques to model complex systems. His expertise in dynamical systems theory, stochastic processes, and complex network dynamics positions him as a leader in the study of non-equilibrium phenomena.

👨‍🏫 Teaching Experience

As an academic at Yunnan University, Luchun Du has taught courses on statistical mechanics, nonlinear dynamics, and theoretical physics. His teaching is known for its clarity and the integration of cutting-edge research into the curriculum, inspiring students to pursue research in complex systems and theoretical physics.

🏅 Awards and Honors

Dr. Luchun Du has received several prestigious awards recognizing his scientific achievements, including:

  • First Prize of Science and Technology Award from the Yunnan Provincial Government
  • Certificate of Outstanding Contribution in Reviewing from the Editorial Board of Physica A
  • Outstanding Doctorate Dissertation from the Academic Board of Yunnan Province

These awards reflect his excellence in research, peer review, and contributions to the academic community.

🌱 Legacy and Future Contributions

Dr. Luchun Du’s work has significantly advanced the understanding of nonequilibrium statistical mechanics and complex systems, making him a key figure in the global physics community. Looking forward, he aims to further explore active matter systems, anomalous transport, and spatiotemporal dynamics. His continued research will likely have a lasting impact on the development of theoretical models and applications in diverse fields such as material science, biophysics, and environmental systems.

  Publications Top Notes

A chiral active particle on two-dimensional random landscapes: ergodic uncertain diffusion and non-ergodic subdiffusion

  • Authors: Hongda Shi, Xiongbiao Zhao, Wei Guo, Jun Fang, Luchun Du
    Journal: Nonlinear Dynamics
    Year: 2024

Collective motion with the self-propelled directional reversals effect

  • Authors: C. Wang, C.R. Li, W. Guo, L.C. Du
    Journal: Chaos, Solitons & Fractals
    Year: 2024

Bounded diffusing diffusivities: Brownian yet non-Gaussian diffusion

  • Authors: Chengrong Luo, Luchun Du, Zixuan Guo, Hongda Shi, Feijie Huang, Youlin Xiang, Wei Guo
    Journal: Physica Scripta
    Year: 2024

Brownian particles in a periodic potential corrugated by disorder: Anomalous diffusion and ergodicity breaking

  • Authors: Wei Guo, Ying-Zhou Liu, Fei-Jie Huang, Hong-Da Shi, Lu-Chun Du
    Journal: Chaos, Solitons & Fractals
    Year: 2023

Vibrational resonance in globally coupled bistable systems under the noise background

  • Authors: Jiangling Liu, Chaorun Li, Hailing Gao, Luchun Du
    Journal: Chinese Physics B
    Year: 2023

 

 

 

Mahdieh Ghaseminejad | High energy physics | Editorial board member

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Dr. Mahdieh Ghaseminejad | High energy physics | Editorial board member

Yazd University | Iran

Dr. Mahdieh Ghasemi Nejad is a flexible and experienced researcher with a strong background in industrial, experimental, and theoretical sciences. She has specialized expertise in micro and nanomaterials, polymers, and nuclear physics. As an academic researcher and university lecturer, she combines her profound knowledge with practical experience in product design and development. Dr. Ghasemi Nejad is a strong communicator, proficient in teamwork, and excels at taking on new challenges and initiatives.

👨‍🎓 Profile

🎓 Early Academic Pursuits

Dr. Ghasemi Nejad embarked on her academic journey with a Bachelor’s degree in Solid State Physics from Kerman University (2005-2009), where she excelled in her studies. She then pursued a Master’s degree in Nuclear Physics at Payam Noor University in Mashhad (2009-2011). Her academic career culminated with a Ph.D. in Nuclear Physics from Yazd University (2017-2021), where she furthered her expertise in the interdisciplinary fields of nuclear and material sciences.

🔬 Professional Endeavors

Currently, Dr. Ghasemi Nejad serves as the Managing Director of Gita Baspar Co. in Yazd, where she is involved in consulting and cooperation on polymer production and product design. Alongside this, she has had an extensive career as a university lecturer at both Azad University and Payam Noor University, contributing to higher education and mentoring young researchers. Dr. Ghasemi Nejad also held the position of Head of Design and Development Unit at Nano Sanjesh Yaran Mohit Co., where she was responsible for product innovation and supervising production processes from 2017 to 2022.

🔬 Contributions and Research Focus

Dr. Ghasemi Nejad’s research revolves around micro and nanomaterials, polymers, and nuclear physics, with a particular focus on the shielding properties of materials against radiation and antibacterial applications. Some of her key research topics include:

  • X-ray attenuation properties of composite materials such as PbO and graphene.
  • The shielding performance of materials like EPVC (lead-free) and high-Z oxide fibers.
  • Investigating the antibacterial properties of polymeric composites containing nanoparticles such as Molybdenum Trioxide.
  • Monte Carlo simulations for radon measurement in water and X-ray attenuation models.

Her work is instrumental in both theoretical and applied aspects of material science, particularly in radiation protection and nanotechnology.

🌍 Impact and Influence

Dr. Ghasemi Nejad has significantly contributed to the fields of nuclear physics, polymer science, and nanomaterials. Her publications and conference papers have made her a recognized figure in the scientific community, particularly in radiation shielding and nanomaterial applications. Her research is highly influential in both academic circles and industrial sectors, where her work in polymer production and product design is shaping innovative solutions for radiation protection and nanocomposites.

💻 Computer Skills

  • Microsoft Office Suite (Word, Excel, PowerPoint)
  • MCNP and GEANT4 for nuclear simulations
  • MATLAB for data analysis
  • Origin Pro for scientific plotting
  • ChemDraw and OPUS for chemical structure drawing
  • Prezi and Image J for presentations and image processing

Her diverse computer skills ensure effective data analysis, modeling, and presentation in both academic and industrial contexts.

🏆 Awards and Honors

Dr. Ghasemi Nejad has been recognized for her scientific achievements throughout her career, including:

  • First place in the Ninth Scientific Festival of Students (Scientific Olympiad in Physics), 2009.
  • Ranked first among undergraduate students at Kerman University in 2009.
  • Patent Declaration for an X-ray protective polymer layer in 2020.

These recognitions emphasize her commitment to scientific excellence and innovation.

Top Noted Publications

  • The effect of modified Tin oxide on X-ray attenuation: An experimental and theoretical study
    Authors: Ghasemi-Nejad, M., Gholamzadeh, L., Adeli, R., Shirmardi, S.P.
    Journal: Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
    Year: 2024
  • Investigation of Antibacterial Activity of Synthesized PVC Composites Containing Molybdenum Trioxide Nano Particles
    Authors: Ghasemi-Nejad, M., Gholamzadeh, L., Adeli, R., Shirmardi, S.P.
    Journal: Journal of Surface Investigation
    Year: 2023
  • A comprehensive study of the antibacterial and shielding properties of micro and nano-EPVC lead-free shields
    Authors: Ghasemi-Nejad, M., Gholamzadeh, L., Adeli, R., Shirmardi, S.P.
    Journal: Physica Scripta
    Year: 2022
  • A study of the shielding performance of fibers coated with high-Z oxides against ionizing radiations
    Authors: Gholamzadeh, L., Asari-Shik, N., Aminian, M.K., Ghasemi-Nejad, M.
    Journal: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
    Year: 2020

 

Lin Cheng | High energy physics | Best Researcher Award

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Mrs. Lin Cheng | High energy physics | Best Researcher Award

North university of China, China

👨‍🎓 Profile

Orcid

📚 Early Academic Pursuits

Lin Cheng began their academic journey with a BSc in Information and Communication Engineering from the North University of China in 2010. Demonstrating a strong foundation in engineering, they advanced to earn both MSc (2013) and PhD (2021) degrees at the Key Laboratory for Physical Electronics and Devices, Xi’an Jiaotong University, a hub for innovation in photonics and electronic sciences. Lin’s doctoral studies were pivotal, focusing on cutting-edge research in light modulation and surface plasmon technologies, laying the groundwork for their future contributions.

🌟 Professional Endeavors

As an Associate Professor at the School of Semiconductor and Physics, North University of China since 2021, Lin Cheng has become a leading academic in photonics and metamaterials. Their international experience includes a visiting student tenure at the University of Ottawa, Canada, from September 2019 to October 2020, where they collaborated on advanced light propagation control techniques.

🔬 Contributions and Research Focus

Lin’s research is centered on metasurfaces, surface plasmon applications, nonlinear optics, epsilon-near-zero materials, and multi-wave mixing in Rubidium, contributing significantly to fields like light modulation and color display technologies. Their work has advanced the understanding of nonlinear antennas, tunable meta-absorbers, and innovative approaches to beam manipulation.

🌍 Impact and Influence

Lin Cheng’s work has made a significant impact in both academia and applied physics. Her published journal papers, including “Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas” (ACS Photonics, 2021), have become vital resources for researchers worldwide. Her studies on plasmonic colors and dynamic tunable radiation have influenced emerging metamaterial technologies, inspiring innovations in optics, and photonics.

📊 Academic Citations

With a robust portfolio of 10 journal publications, Lin’s work has earned numerous citations, reflecting the scientific community’s recognition of their contributions to optics and photonics. Their most notable paper, Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas, published in  ACS Photonics (2021), showcases their innovative approach to solving complex optical challenges.

💻 Technical Skills

Lin Cheng excels in cutting-edge simulation and modeling tools such as COMSOL and MATLAB for optical designs. Her technical expertise spans plasmonic structure fabrication, multi-wave mixing analysis, and epsilon-near-zero metamaterial development, making her a leader in physics, optical and photonic research.

🏆 Legacy and Future Contributions

With four funded projects totaling RMB 490,000, Lin is poised to make transformative contributions to light modulation and metasurface technologies. Their National Natural Science Foundation of China grant (2024–2026) supports research into nonlinear metasurfaces, signaling their commitment to shaping the future of photonics. Lin’s legacy will be defined by their dedication to advancing optical sciences and mentoring future researchers. 

Top Noted Publications

Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas
  • Authors: Lin Cheng, Rasoul Alaee, Akbar Safari, Mohammad Karimi, Lei Zhang, Boyd Robert
    Journal: ACS Photonics
    Year: 2021
Manipulation of a Ring-shaped Beam via Spatial Self- and Cross-phase Modulation in Lower Intensity
  • Authors: Lin Cheng, Zhaoyang Zhang, Lei Zhang, Danmeng Ma, Gaoguo Yang, Tian Dong, Yanpeng Zhang
    Journal: Phys. Chem. Chem. Phys.
    Year: 2019
Extrinsic Polarization-enabled Covert Plasmonic Colors using Aluminum Nanostructures
  • Authors: Lin Cheng, Kun Wang, Jianyong Mao, Xiao Ming Goh, Zhiqin Chu, Yanpeng Zhang, Lei Zhang
    Journal: Ann. Phys. (Berl.)
    Year: 2019
Competition and Energy Transfer between Forward and Backward Four-Wave Mixing via Atomic Coherence
  • Authors: Lin Cheng, Yaling Tian, Yize Liu, Yanpeng Zhang, Kangkang Li, Yang Liu, Ruizhou Liu
    Journal: IEEE J. Quantum Electron.
    Year: 2017
Modulation of the High-order Lagurre-Gaussian Beam in Dressing Four-Wave Mixing
  • Authors: Lin Cheng, Xing Liu, Yanyong Sun, Kun Wang, Lei Zhang, Yanpeng Zhang
    Journal: IEEE J. Quantum Electron.
    Year: 2018
Nonlinear Antennas with Tunable Radiation Patterns in Near Infrared
  • Authors: Lin Cheng, Lei Zhang
    Journal: Journal of Synthetic Crystals
    Year: 2021

 

 

 

Research Innovation Award in Physics

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Introduction to Research Innovation Award in Physics:

Embark on a journey of discovery and progress with the Research Innovation Award in Physics—an esteemed accolade designed to honor those pushing the boundaries of knowledge and driving innovation within the realm of physics.

Eligibility:

Open to physicists, researchers, and innovators globally, this award welcomes individuals of all ages who have demonstrated exceptional creativity and ingenuity in their research endeavors.

Qualification and Publications:

Applicants should possess at least a master's degree in physics or a related field, showcasing a profound understanding of their subject matter. A robust portfolio of publications, particularly those highlighting innovative approaches, is highly regarded.

Requirements:

To be eligible, candidates must submit a comprehensive curriculum vitae, a detailed list of publications, and evidence of their innovative contributions to the field of physics.

Evaluation Criteria:

Entries will be evaluated based on the level of innovation demonstrated in the research, the impact on the field, and the potential for future advancements.

Submission Guidelines:

Detailed instructions for submission can be found on our official website, ensuring a smooth and transparent application process.

Recognition:

The recipient of the Research Innovation Award in Physics will be honored with a distinguished accolade, increased visibility, and acknowledgment within the global physics and research communities.

Community Impact:

Beyond personal recognition, this award acknowledges the broader influence of the recipient's innovative research, inspiring collaboration and shaping the future of physics exploration.

Biography and Abstract:

Applicants are encouraged to provide a brief biography and an abstract summarizing their research, offering insights into the motivation, methodology, and outcomes of their innovative work.

Supporting Files:

Submission should include supporting files, such as research papers, presentations, or any additional documentation that illustrates the groundbreaking nature of the candidate's innovative contributions.

 

 

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