Harshita Srivastava | Quantum Computing | Best Researcher Award

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Ms. Harshita Srivastava | Quantum Computing | Best Researcher Award

Deen Dayal Upadhyaya Gorakhpur University | India

Harshita Srivastava is an accomplished Ph.D. researcher currently pursuing her doctoral studies on Computational Studies of Novel Superalkali Clusters at D.D.U.G.U Gorakhpur. With a robust academic background in Physics and Mathematics, Harshita has made significant strides in computational chemistry and material science, focusing on superalkali clusters and their applications in areas like energy storage, drug design, and carbon dioxide activation.

👨‍🎓Profile

Scopus

Early Academic Pursuits 🎓

Harshita’s academic journey began in the Science Group at the CBSE Board, where she graduated from high school in 2012 and later completed her Intermediate studies in Mathematics in 2014. She earned her B.Sc. in Physics and Mathematics from D.D.U.G.U Gorakhpur in 2017, followed by a Master’s degree in Physics in 2019. Her keen interest in computational studies led her to pursue Ph.D. research at the same institution, where she continues to delve into the world of superalkali clusters.

Professional Endeavors 🔬

Throughout her career, Harshita has demonstrated a commitment to advancing scientific knowledge and contributing to the field of computational chemistry. Her research experience spans a wide array of topics, from superalkalis to the inhibition of SARS-CoV-2, highlighting her ability to apply computational methods to a diverse range of scientific challenges. Her work in understanding the electronic structures of clusters and exploring new materials for applications in energy storage and drug design has established her as an emerging expert in her field.

Contributions and Research Focus 🔍

Harshita’s research is centered around the study of superalkali clusters and their chemical properties, which has implications for a variety of applications. She has contributed to significant publications in top-tier journals like Frontiers in Physics, Chemical Physics Letters, and Journal of the Indian Chemical Society. Her work also extends to material science, specifically studying molecular dynamics, quantum chemistry, and their potential applications in sustainable development. By investigating the interaction of molecules with superalkalis, Harshita has helped to enhance our understanding of nonlinear optical responses, hydrogen storage, and energy-efficient materials.

Impact and Influence 🌍

Harshita’s research is influencing the scientific community, particularly in the realms of superalkalis and nanomaterials. Her work has applications in carbon dioxide activation, hydrogen storage, and the design of strong bases and superbases, which could significantly contribute to addressing global energy and environmental challenges. Additionally, her book chapter contributions on superalkalis, which were published by Taylor & Francis/CRC Press, further demonstrate her scientific influence and commitment to advancing knowledge in her field.

Research Skills 🔧

Harshita possesses advanced research skills, particularly in computational modeling, ab initio studies, and quantum chemical simulations. She is proficient in using a variety of simulation tools such as the Amsterdam Modelling Suite and has experience in docking studies and molecular dynamics simulations. These skills have enabled her to tackle complex scientific problems and make meaningful contributions to the study of novel materials and superalkali chemistry. Her expertise in data analysis and theoretical modeling also positions her as a leader in her research area.

Awards and Honors 🏆

While Harshita is still in the early stages of her career, she has already received significant recognition for her work. Her participation and presentation at conferences such as the International Conference on Nanotechnology and Materials for Energy & Sustainable Development have been well-received. She has also been acknowledged for her contributions to research with certificates and awards from renowned institutions, showcasing her growing reputation in the scientific world.

Legacy and Future Contributions 🔮

Harshita Srivastava’s future in research is bright. With her ongoing work in computational chemistry and superalkali clusters, she is poised to make even more significant contributions to material science, nanotechnology, and sustainability. As she continues to expand her research portfolio, Harshita has the potential to leave a lasting legacy in the scientific community, driving innovations in clean energy, drug design, and environmental solutions. Her work has already laid the foundation for future breakthroughs, and her career is one to watch closely as she continues to push the boundaries of scientific understanding.

Publications Top Notes

BH6+: Revisiting borohydride cation with negatively charged boron and its possible implications for hydrogen storage

  • Authors: Srivastava, A.K., Das, P., Srivastava, H., Chattaraj, P.K.
    Journal: Chemical Physics, 2024

Interaction of N2, O2 and H2 Molecules with Superalkalis

  • Authors: Srivastava, H., Kumar Srivastava, A., Misra, N.
    Journal: ChemistryOpen, 2024

Engineering novel alkalides with superalkali clusters: Ab initio insights into nonlinear optical responses

  • Authors: Srivastava, H., Srivastava, A.K.
    Journal: Molecular Simulation, 2024

Superalkalis in the Design of Strong Bases and Superbases

  • Authors: Srivastava, H., Srivastava, A.K.
    Book Title: Superhalogens and Superalkalis: Bonding, Reactivity, Dynamics and Applications, 2024

Effect of Methyl Substitutions on the Ionization Energy of OH3−n(CH3)n+

  • Authors: Srivastava, H., Tripathi, J.K., Srivastava, A.K.
    Book Title: Springer Proceedings in Materials, 2024

 

 

 

Chao Zheng | Quantum Information | Quantum Physics Innovation Award

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Prof.  Dr. Chao Zheng | Quantum Information | Quantum Physics Innovation Award

North China University of Technology | China

Chao Zheng, Ph.D. in Physics, is a renowned professor at North China University of Technology (NCUT), holding dual roles in the School of Energy Storage Science and Engineering and the School of Science. With a solid academic background, he completed his Ph.D. from Tsinghua University, supplemented by a joint-training program at MIT. His current research focuses on the convergence of quantum information science, energy physics, and energy storage, positioning him as a leading figure in these groundbreaking fields.

👨‍🎓 Profile

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Scopus

Orcid

Early Academic Pursuits 📚

Chao Zheng’s academic journey began with a deep passion for physics, particularly quantum mechanics and energy science. During his early academic years, he excelled in his studies at Tsinghua University, one of the most prestigious institutions in China. His time at MIT provided a unique opportunity to further hone his skills in quantum physics and gain exposure to cutting-edge technologies and research methodologies.

Professional Endeavors 💼

Currently, Chao Zheng serves as a professor at NCUT, where he is instrumental in the development of programs related to energy storage and quantum computing. His professional memberships and affiliations include being a Life Member of the Optical Society (OSA), now called OpKca, and a member of notable organizations like the American Physical Society (APS) and IEEE. Additionally, he serves as an Executive Member of the Quantum Computing Professional Group of the China Computer Federation (CCF) and an expert on quantum information within the Communications Society of China.

Contributions and Research Focus 🔬

Zheng’s research primarily addresses the intersection of quantum information science, energy physics, and energy storage. He is deeply involved in exploring how quantum mechanics can revolutionize energy storage systems and improve their efficiency and capabilities. His work has had a profound impact on non-Hermitian physics, energy science, and quantum technologies, establishing him as a pioneer in these domains.

Impact and Influence 🌍

Chao Zheng’s contributions to quantum information and energy storage have made a significant impact in the global scientific community. His research has been positively cited by domestic and international scholars over 800 times, reflecting the widespread recognition of his work. His leadership in the academic community and membership in various advisory roles has amplified his influence, particularly in the development of quantum computing in China and beyond.

Academic Cites 📑

Having published over 30 academic papers, Chao Zheng’s work has garnered substantial attention. His research has been cited more than 800 times, illustrating the relevance and importance of his contributions to quantum physics and energy research. The citation of his work by both domestic and foreign experts speaks to the international significance of his studies.

Research Skills ⚙️

Chao Zheng has a multidisciplinary approach to research, integrating expertise from quantum information, energy physics, and energy storage. His ability to bridge theoretical physics with practical applications makes him an outstanding researcher. He has led several high-impact research projects and is skilled in securing funding for advanced studies, as evidenced by his leadership of three National Natural Science Foundation projects and other provincial-level initiatives.

Teaching Experience 🎓

As a professor at NCUT, Chao Zheng is committed to shaping the next generation of scientists and engineers in the fields of quantum physics and energy storage. His educational philosophy emphasizes a hands-on, interdisciplinary approach, fostering an environment where students can explore cutting-edge topics in quantum mechanics and energy technologies. Zheng’s teaching has had a direct influence on many budding physicists and engineers, providing them with the skills needed to thrive in today’s rapidly evolving technological landscape.

Awards and Honors 🏅

Chao Zheng’s excellence has been recognized with numerous prestigious awards, including the “Chinese Academy of Sciences Excellent Author Award” and the “Most Influential Paper Award” from the Chinese Physical Society. These accolades reflect his pioneering contributions to the scientific community. In addition, he received several IAAM Awards, further affirming his reputation as a leader in quantum and energy research.

Legacy and Future Contributions 🔮

Chao Zheng’s legacy is defined by his deep commitment to quantum information science and energy storage research. His groundbreaking work is poised to shape the future of quantum computing and sustainable energy solutions. Looking ahead, Zheng’s focus will continue to be on integrating quantum innovations into practical applications that can benefit society at large, particularly in areas like energy conservation, quantum technologies, and smart computing systems.

  Publications Top Notes

Extended imaginary gauge transformation in a general nonreciprocal lattice

  • Authors: Yunyao Qi, Jinghui Pi, Yuquan Wu, Heng Lin, Chao Zheng, Gui-Lu Long
    Journal: Physical Review B
    Year: 2024

Non-Hermitian Quantum Rényi Entropy Dynamics in Anyonic-PT Symmetric Systems

  • Authors: Zhihang Liu, Chao Zheng
    Journal: Symmetry
    Year: 2024

Iteration-free digital quantum simulation of imaginary-time evolution based on the approximate unitary expansion

  • Authors: Jingwei Wen, Chao Zheng, Zhiguo Huang, Ling Qian
    Journal: Europhysics Letters
    Year: 2023

Non-Hermitian Generalization of Rényi Entropy

  • Authors: Daili Li, Chao Zheng
    Journal: Entropy
    Year: 2022

Quantum Simulation of Pseudo-Hermitian-φ-Symmetric Two-Level Systems

  • Authors: Chao Zheng
    Journal: Entropy
    Year: 2022

 

 

Anicet Kammogne Djoum Nana | Quantum Information | Best Researcher Award

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Dr. Anicet Kammogne Djoum Nana | Quantum Information | Best Researcher Award

Dr. Anicet Kammogne Djoum Nana | University of Dschang | Cameroon

Dr. Kammogne Djoum Nana Anicet is a Cameroonian theoretical physicist who has excelled in condensed matter physics. He completed his PhD in Theoretical Condensed Matter Physics at the University of Dschang in 2022, earning the highest distinction for his research and academic work. His contributions span various aspects of quantum physics, interferometry, and decay models, with notable publications in prestigious journals. He has received several prestigious Best Researcher Awards and remains an influential figure in the academic community.

👨‍🎓 Publication Profile

Early Academic Pursuits 🎓

Dr. Kammogne’s journey in academia began with a strong foundation in Physics at the University of Dschang, where he earned his Master of Science (MSc) with distinction in 2016. His intellectual curiosity and dedication earned him the title of Honored Graduate as the Best MSc student of his cohort (2014-2016). His research work during his MSc laid the groundwork for his later contributions in Theoretical Condensed Matter Physics and quantum mechanics.

Professional Endeavors 💼

Dr. Kammogne’s professional journey includes his role as a monitor at the University of Dschang from 2017-2019, where he assisted in practical sessions, tutorials, and exam corrections. His role as a mentor to younger students helped shape his pedagogical skills. Additionally, he worked in the Laboratory of Condensed-Matter, Electronics, and Signal Processing at the University of Dschang, where he contributed significantly to the university’s Condensed Matter Group. His involvement in cutting-edge research projects placed him at the forefront of quantum physics research in the region.

Contributions and Research Focus 🔬

Dr. Kammogne’s research has primarily focused on condensed matter physics and quantum systems. His PhD research, under the guidance of Prof. Lukong Cornelius Fai and Dr. Nsangou Issofa, centered on the statistical properties of interferograms in three-level systems, which has implications for quantum computing and quantum information science. His work on non-resonant exponential Nikitin models in decaying systems further advanced the understanding of quantum transitions and interferometry.

Academic Cites 📚

Dr. Kammogne’s work has gained significant recognition in the academic world, as evidenced by his numerous publications and citations. His paper on Statistics of interferograms in three-level systems (Physics Letters A, 2022) and the Non-resonant exponential Nikitin models with decay (Chinese Journal of Physics, 2023) have contributed to the understanding of quantum dynamics and system decay. These contributions have cemented his reputation as a rising star in the field of quantum physics.

Technical Skills 🖥️

Dr. Kammogne’s technical expertise is vast and includes proficiency in various computational tools such as Mathematica, Python, and Qutip for quantum simulations. His skills in Latex and MS Word are essential for writing high-quality academic papers and reports. Moreover, his fluency in both Windows and Ubuntu operating systems allows him to efficiently work across diverse platforms, a crucial asset for a modern physicist. His ability to use advanced programming tools enables him to perform complex simulations and analyses in theoretical physics, particularly in the domain of condensed matter physics.

Teaching Experience 👩‍🏫

As an educator at the University of Dschang, Dr. Kammogne has lectured on a range of topics in theoretical physics, including electrostatics, electromagnetism, solid-state physics, quantum mechanics, and magnetostatics. His commitment to education is reflected in his role as a monitor and a lecturer, helping shape the next generation of physicists.

🏆 Achievements and Recognition

Dr. Kammogne’s accolades include multiple Best Researcher Awards (2023, 2024) and recognition for his academic excellence by Cameroon’s President. His work stands as a testament to his dedication to advancing science, fostering education, and inspiring the next generation of physicists.

Top Noted Publications

 

 

Ni Liu | Quantum Technologies | Best Extension Activity Award

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Mrs. Ni Liu | Quantum Technologies | Best Extension Activity Award

Teacher at Shanxi University, China

Ni Liu, a 34-year-old female academic from Shanxi, China, is an Associate Professor at the Institute of Theoretical Physics of Shanxi University. With a PhD in Theoretical Physics from Shanxi University, her research primarily focuses on quantum optics, quantum computing, and condensed matter physics, especially in systems involving ultracold atoms and high-finesse optical cavities. Ni Liu has been involved in a range of pioneering theoretical and experimental work, contributing significantly to our understanding of quantum phase transitions and atom-photon interactions.

👨‍🎓 Profile

📚 Early Academic Pursuits

Ni Liu completed her BS in Physics at Taiyuan Normal University in 2008 and later earned her PhD in Theoretical Physics from the Institute of Theoretical Physics of Shanxi University (2008-2013). Her doctoral research, under the mentorship of Prof. Jiuqing Liang and Prof. Gang Chen, involved significant contributions to Dicke quantum phase transitions in open systems and the self-organization of Bose-Einstein condensates (BEC), laying the foundation for her future work in quantum optics.

🏫 Professional Endeavors

Ni Liu has been a prominent academic at Shanxi University since 2013. She began as a lecturer at the School of Physical and Electronic Engineering and later advanced to the role of Associate Professor at the Institute of Theoretical Physics. Over the years, she has gained significant recognition in both national and international academic communities for her theoretical work and contributions to quantum physics.

🔬 Contributions and Research Focus

Ni Liu’s research primarily revolves around the interaction between ultracold atoms and high-finesse optical cavities, exploring systems that bridge quantum optics and condensed matter physics. Her work in Dicke quantum phase transitions and nonlinear atom-photon interactions has broadened the understanding of quantum phase transitions, including in BEC-cavity systems. Liu has contributed to the theory behind Bose-Einstein condensates (BEC) in optomechanical cavities, where she has proposed novel quantum phase transitions and multi-component BEC systems.

💼 Research Grants & Funding

Ni Liu has been the principal investigator on several significant grants:

  • National Natural Science Foundation of China (2014-2017)
  • Scientific and Technological Innovation Programs of Higher Education Institutions in Shanxi Province (2014-2016)
  • Natural Science Foundation of Shanxi Province (2017-2019) Additionally, she has been a key participant in several other collaborative projects, contributing to the advancement of experimental and theoretical quantum physics.

🌍 Collaborations and Partnerships

Ni Liu’s research has fostered collaborations with both national and international researchers. Her contributions to quantum optics and condensed matter physics have involved joint efforts with leading universities and research institutions in China and beyond. Her work is at the intersection of experimental physics and theoretical quantum mechanics, fostering collaboration between these disciplines.

Top Noted Publications

 

 

Lilia Tightiz | Quantum Computing | Best Researcher Award

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Assist. Prof. Dr. Lilia Tightiz | Quantum Computing | Best Researcher Award

Assistant Professor at Gachon University, South Korea

Dr. Lilia Tightiz is an accomplished Assistant Professor at Gachon University, Korea, specializing in Computer Science and Engineering. She earned her Ph.D. in Computer Science and Engineering from Sejong University, Korea, in February 2022. With over 15 years of experience in the Electric Power Distribution Industry, Dr. Tightiz has made significant contributions in the design, utilization, and maintenance of electricity distribution grids. She has received numerous accolades, including world-class prizes for her inventions and contributions to the power distribution sector. Dr. Tightiz’s research interests span microgrid energy management, smart grid communication, and quantum machine learning, with a focus on deep reinforcement learning applications in power systems.

Profile🎓

Early Academic Pursuits 🎓

Lilia Tightiz began her academic journey in the field of Computer Science and Engineering, receiving her Ph.D. degree from Sejong University, Korea, in February 2022. Her early academic pursuits were driven by a passion for technological advancements in the electric power distribution sector, which laid the foundation for her future research in microgrid energy management systems and smart grids. Her doctoral research focused on deep, specialized topics within power systems and energy management, helping her build a strong foundation in renewable energy integration and smart grid technologies. With a solid academic background in engineering and computer science, Dr. Tightiz combines practical and theoretical insights to approach modern energy challenges.

Professional Endeavors ⚡

Dr. Tightiz has accumulated over 15 years of professional experience in the Electric Power Distribution Industry. As a Power Distribution Engineer, she contributed to the design, utilization, and maintenance of electricity distribution grids, working on several impactful projects. Her expertise in the sector is demonstrated through her numerous patents and recognition in prestigious forums such as the International Trade Fair for Ideas, Inventions, New Products in Nuremberg, Germany, and the Korean International Women Invention event. These accolades highlight her global influence and her role in transforming the power distribution industry. Dr. Tightiz has also contributed significantly to energy technology exhibitions, such as the Bitgaram International Exposition of Electric Power Technology and the International Invention Fair.

Contributions and Research Focus 🔬

Dr. Tightiz’s research is centered around microgrid energy management, smart grid communication structures, and deep reinforcement learning applications in power systems. She has delved into the intersection of electric vehicles (EVs), charging/discharging scheduling, and quantum machine learning, which are emerging areas in the modern energy landscape. Her work also explores the integration of IEC 61850 and IEC 62439 standards into smart grid systems, ensuring seamless communication and improved system resilience. Dr. Tightiz is particularly focused on optimizing energy efficiency and enhancing grid stability, leveraging cutting-edge technologies like deep reinforcement learning to offer innovative solutions for energy management systems in microgrids.

Impact and Influence 🌍

Dr. Tightiz has had a significant impact on both industry practices and academic research in the power distribution and energy management sectors. Her participation in international trade fairs and expos, along with her patents and world-class prizes, underscores her influence on global energy systems. As an associate editor for the e-Prime (Elsevier) Journal, she has contributed to advancing knowledge and fostering innovation in her field. Her work has been pivotal in bridging the gap between traditional power systems and emerging smart grid technologies, and her contributions are shaping the future of sustainable energy.

Academic Cites 📚

Dr. Tightiz’s research has garnered significant attention, with her work being widely cited in top-tier journals and conferences. Her academic contributions, particularly in deep reinforcement learning and smart grid communication, have positioned her as a leading expert in the field of power systems and energy management. Her efforts to integrate quantum machine learning with power distribution have been recognized as cutting-edge, with increasing citations and collaborations from leading institutions and industry stakeholders.

Technical Skills 🛠️

Dr. Tightiz’s technical expertise spans a wide array of skills and knowledge areas that are critical for modern power systems. She is proficient in deep reinforcement learning algorithms, smart grid communication protocols (IEC 61850, IEC 62439), and the development of microgrid energy management systems. Additionally, she is well-versed in energy optimization techniques, power system modeling, and quantum computing applications in power grids. Her multi-disciplinary skill set makes her a versatile researcher and educator in both engineering and computer science.

Teaching Experience 👩‍🏫

Dr. Tightiz currently serves as an assistant professor at Gachon University, Korea, where she began her academic career in April 2022. Her teaching focuses on cutting-edge topics such as smart grids, power systems, machine learning, and quantum computing in energy applications. Her strong professional background allows her to bring real-world experiences into the classroom, making her lectures highly relevant to current energy challenges. Dr. Tightiz fosters an interactive learning environment, encouraging her students to engage with modern technologies like microgrids and reinforcement learning algorithms to solve pressing energy issues.

Legacy and Future Contributions 🌟

Dr. Tightiz’s legacy is already being shaped by her innovative contributions to the power distribution industry and her leading-edge research in smart grid technologies. Looking forward, she aims to further advance the integration of quantum machine learning in power system optimization and continue her work on microgrids. Her future research will explore sustainable energy solutions and contribute to the global transition towards renewable energy. Dr. Tightiz is also focused on training the next generation of energy scientists and engineers, with a focus on developing innovative technologies that will drive energy sustainability and grid stability.

Top Noted Publications📖

Metaverse-driven smart grid architecture
    • Authors: Lilia Tightiz, L. Minh Dang, Sanjeevikumar Padmanaban, Kyeon Hur
    • Journal: Energy Reports
    • Year: 2024
Enhancing data security and privacy in energy applications: Integrating IoT and blockchain technologies
    • Authors: Hari Mohan Rai, Kaustubh Kumar Shukla, Lilia Tightiz, Sanjeevikumar Padmanaban
    • Journal: Heliyon
    • Year: 2024
Quantum-Fuzzy Expert Timeframe Predictor for Post-TAVR Monitoring
    • Authors: Lilia Tightiz, Joon Yoo
    • Journal: Mathematics
    • Year: 2024
Providing an Intelligent Frequency Control Method in a Microgrid Network in the Presence of Electric Vehicles
    • Authors: Mousa Alizadeh, Lilia Tightiz, Morteza Azimi Nasab
    • Journal: World Electric Vehicle Journal
    • Year: 2024
Implementing AI Solutions for Advanced Cyber‐Attack Detection in Smart Grid
    • Authors: Lilia Tightiz, Rashid Nasimov, Morteza Azimi Nasab, Mohamed Louzazni
    • Journal: International Journal of Energy Research
    • Year: 2024
A cluster-based trusted routing method using fire hawk optimizer (FHO) in wireless sensor networks (WSNs)
    • Authors: Mehdi Hosseinzadeh, Joon Yoo, Saqib Ali, Jan Lansky, Stanislava Mildeova, Mohammad Sadegh Yousefpoor, Omed Hassan Ahmed, Amir Masoud Rahmani, Lilia Tightiz
    • Journal: Scientific Reports
    • Year: 2023
A secure routing approach based on league championship algorithm for wireless body sensor networks in healthcare
    • Authors: Mehdi Hosseinzadeh, Adil Hussein Mohammed, Amir Masoud Rahmani, Farhan A. Alenizi, Seid Miad Zandavi, Efat Yousefpoor, Omed Hassan Ahmed, Mazhar Hussain Malik, Lilia Tightiz
    • Journal: PLOS ONE
    • Year: 2023

 

 

 

 

Aniket Nag | Quantum Technologies | Best Researcher Award

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Mr. Aniket Nag | Quantum Technologies | Best Researcher Award

Ph D Scholar at Indian Institute of Technology, Kanpur in India

Aniket Nag is an emerging physicist with a focus on quantum information and atomic-molecular physics. He completed his M.Sc. in Physics from the National Institute of Technology (NIT) Durgapur, achieving a commendable CGPA of 8.94. Aniket’s research interests lie in understanding complex physical phenomena, including the effects of the generalized uncertainty principle. He has actively participated in academic discussions on econophysics and sociophysics and contributed to seminars and science exhibitions. His academic journey reflects both excellence and curiosity, with multiple publications in renowned journals such as the Ukrainian Journal of Physics and Canadian Journal of Physics. With a solid background in computational tools like Fortran and Matlab, Aniket aims to advance his research career while contributing to the broader field of physics.

Profile:

Education:

Aniket Nag completed his M.Sc. in Physics from the National Institute of Technology, Durgapur, West Bengal, in 2022, with a CGPA of 8.94. Prior to that, he obtained his B.Sc. in Physics from Serampore College under the University of Calcutta, graduating in 2020 with 74.37%. During his undergraduate studies, he focused on Physics as his major, with Chemistry and Mathematics as general subjects. He had a strong academic performance during his Higher Secondary (10+2) education at Dainhat High School, securing 87.2% with Physics, Chemistry, Mathematics, and Biological Science as his core subjects. Aniket demonstrated academic excellence from an early age, achieving an impressive 87.75% during his Secondary School (10th) education in 2015. His education laid a strong foundation for his future research interests in quantum information and atomic-molecular physics.

Professional experience:

Aniket Nag’s academic experience extends beyond traditional coursework. In 2019, he participated in a discussion on Econo physics and Socio physics led by Dr. Bikas Kanta Chakrabarti, an Emeritus Professor at Saha Institute of Nuclear Physics (SINP). Additionally, Aniket demonstrated hands-on expertise during the Annual Science Exhibition at Serampore College in 2019, where he successfully created and showcased a Tesla Coil project. His model explained the principles behind wireless power transmission. He also took part in a science show on LIGO and Gravitational Waves organized by the Promote Science team in 2017. Aniket’s academic journey highlights his practical engagement with physics concepts and his passion for exploring innovative solutions. He has also presented research at conferences, including a seminar on the “Generalized Uncertainty Principle and Delta-function potential well” at an UG Symposium organized by Presidency University in 2021.

Research focus:

Aniket Nag’s research is centered around quantum information and atomic-molecular physics, with a particular emphasis on the generalized uncertainty principle. His work explores the fundamental principles that govern quantum systems, contributing to the understanding of how these concepts apply to both theoretical and practical physics. Aniket’s interest in this area has led to multiple publications, including papers on the impact of the generalized uncertainty principle on anharmonic oscillators. His focus also extends to computational physics, where he employs tools like Fortran and Matlab to simulate and analyze complex systems. Aniket’s commitment to advancing the field of quantum physics is further demonstrated by his participation in discussions, seminars, and exhibitions related to cutting-edge topics such as LIGO and gravitational waves. His research aims to push the boundaries of knowledge in quantum information theory and its applications.

Publication Top Notes:

  • Paramanik, S., Nag, A., and Sahoo, S. Generalized uncertainty principle and delta-function potential, Ukrainian Journal of Physics, 67(8), pp.568-568 (2022)
  • Nag, A., and Sahoo, S. Effect of generalized uncertainty principle on anharmonic oscillator, Canadian Journal of Physics, 101(8), pp.373-377 (2023)

Conclusion:

Aniket Nag has laid a strong foundation for a promising career in research, particularly in the areas of quantum mechanics and uncertainty principles. His academic excellence, early research contributions, and technical skills make him a strong candidate for the Best Researcher Award. With a continued focus on broadening his research impact and gaining international exposure, he is poised to become a leading researcher in his field.