Orchidea Maria Lecian | Physics | Best Researcher Award

Posted on by sciencefather

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.

 

 

 

 

Yang Han | Condensed Matter Physics | Best Researcher Award

Posted on by sciencefather

Prof Dr.Yang Han | Condensed Matter Physics | Best Researcher Award

Google Scholar Profile

Orcid Profile

Educational Details:

Yang Han completed her Ph.D. in 2014 from Nanjing University, China. Following her doctorate, she pursued postdoctoral research at RWTH Aachen University, Germany, from 2014 to 2016, where she focused on [research focus, e.g., materials science, mechanical properties, etc.]. She then continued her postdoctoral work at the University of Lorraine, France, from 2016 to 2018, concentrating on [research focus, e.g., thermoelectric properties, molecular dynamics simulations, etc.]. With a strong background in first-principles calculations and numerical simulations, she now serves as a professor and Ph.D. supervisor at Harbin Engineering University.

Research and Innovations:

Yang Han has made significant contributions to the fields of material science and computational modeling, particularly through her innovative research using numerical simulations to understand the mechanical, thermal transport, electronic, magnetic, and thermoelectric properties of advanced materials. Her groundbreaking work has centered on the following key research innovations:

  1. Topological Defects and Heterojunctions in 3D Graphene Structures: Through the support of the National Natural Science Foundation of China (Project No. 12104111), Yang’s research has provided vital insights into the stability and physical properties of three-dimensional graphene structures. By exploring the influence of topological defects and heterojunctions, her research has enhanced the understanding of how these factors contribute to material performance, with potential applications in advanced electronics and nanotechnology.
  2. Natural Gas Hydrate Self-Protection Mechanisms: Under the Basic Research Funds for Central Universities, Yang’s research on natural gas hydrates has delved into the microscopic mechanisms that enable these structures to self-protect, which has crucial implications for energy storage and environmental sustainability. Her molecular dynamics simulations have uncovered novel pathways for optimizing the extraction and stability of natural gas hydrates.
  3. Combustible Ice Formation Mechanism: Another major contribution is her simulation study on the formation mechanism and physical properties of combustible ice. This research, funded by Central Universities’ Free Exploration Support Program, sheds light on the potential of combustible ice as a future energy source by providing a detailed understanding of its formation at the molecular level.
  4. Thermal Conductivity in Carbon Honeycomb Structures: At RWTH Aachen University, Yang’s work using high-performance computing resources has advanced the understanding of how tensile strain impacts the thermal conductivity of carbon-based materials. This research has potential implications for the development of advanced materials with tailored thermal properties for use in electronics and energy systems.
  5. Ab initio Calculations for Predicting Thermal Materials: Yang’s predictive models using ab initio calculations to discover new thermal materials have been pivotal in the design and application of next-generation materials with enhanced heat conduction properties. This project at RWTH Aachen University led to the development of methods that could revolutionize industries ranging from electronics to aerospace by providing better materials for thermal management.

These research innovations demonstrate Yang HAN’s pioneering contributions to material science, leveraging cutting-edge computational techniques to solve complex problems with wide-ranging impacts across multiple scientific and industrial domains.

Research Interest: 

Yang Han research focuses on utilizing numerical simulations to investigate the formation mechanisms and physical properties of natural gas hydrates. Her work delves into understanding how these hydrates form and stabilize at the molecular level, which has significant implications for energy storage and environmental applications. By employing molecular dynamics simulations, she provides crucial insights into the self-preservation behaviors of natural gas hydrates, aiding in their practical extraction and use as alternative energy sources.

Additionally, Yang has made substantial contributions to the study of the mechanical, thermal, electronic, magnetic, and thermoelectric properties of materials. Using a combination of first-principles calculations, molecular dynamics simulations, and analytical models, her research investigates how various materials behave under different physical conditions. This includes exploring their conductivity, structural stability, and magnetic properties, which are essential for designing advanced materials for electronics, thermoelectric devices, and other high-performance applications. Her multi-disciplinary approach is instrumental in advancing the field of material science, offering potential innovations across a wide range of industries.

Contributions: 

Yang Han is a seasoned researcher with over 10 years of experience in the field of numerical simulations, specializing in the mechanical, thermal transport, electronic, magnetic, and thermoelectric properties of materials. Her work primarily involves first-principles calculations and molecular dynamics simulations, which allow her to explore and predict the behavior of materials under various conditions. Her research also extends to water clathrate structures, such as methane hydrate, which have significant implications for energy storage and environmental conservation.

Yang’s academic contributions include 29 SCI-indexed papers, with two of her publications being specially highlighted by the editorial office of Nanotechnology and one chosen as a SCIlight by the Journal of Applied Physics. These recognitions underscore the impact and innovation of her work in material science, particularly in advancing the understanding of material properties for real-world applications in energy and technology.

Top Notable Publications

Rapid growth of CO2 hydrate as a promising way to mitigate the greenhouse effect
Authors: S. Jia, L. Yang, Y. Han, T. Zhang, X. Zhang, P. Gong, S. Du, Y. Chen, J. Ding
Year: 2024
Journal: Materials Today Physics, Article No. 101548
Citations: Not yet available (2024 publication)

Buckling Hydrogenated Biphenylene Network with Tremendous Stretch Extent and Anomalous Thermal Transport Properties
Authors: X. Zhang, M. Poulos, K. Termentzidis, Y. Han, D. Zhao, T. Zhang, X. Liu, S. Jia
Year: 2024
Journal: The Journal of Physical Chemistry C, 128 (13), 5632-5643
Citations: Not yet available (2024 publication)

Ferroelectricity of ice nanotube forests grown in three-dimensional graphene: the electric field effect
Authors: T. Zhang, Y. Han, C. Luo, X. Liu, X. Zhang, Y. Song, Y. T. Chen, S. Du
Year: 2024
Journal: Nanoscale, 16 (3), 1188-1196
Citations: 2

DFT characterization of a new possible two-dimensional BN allotrope with a biphenylene network structure
Authors: Y. Han, T. Hu, X. Liu, S. Jia, H. Liu, J. Hu, G. Zhang, L. Yang, G. Hong, Y. T. Chen
Year: 2023
Journal: Physical Chemistry Chemical Physics, 25 (16), 11613-11619
Citations: 5

Modulating thermal transport in a porous carbon honeycomb using cutting and deformation techniques
Authors: Y. Han, C. Zhao, H. Bai, Y. Li, J. Yang, Y. T. Chen, G. Hong, D. Lacroix, M. Isaiev
Year: 2022
Journal: Physical Chemistry Chemical Physics, 24 (5), 3207-3215
Citations: 1

Stretched three-dimensional white graphene with a tremendous lattice thermal conductivity increase rate
Authors: Y. Han, Y. Liang, X. Liu, S. Jia, C. Zhao, L. Yang, J. Ding, G. Hong
Year: 2022
Journal: RSC Advances, 12 (35), 22581-22589
Citations: 3

Condition monitoring and performance forecasting of wind turbines based on denoising autoencoder and novel convolutional neural networks
Authors: X. Jia, Y. Han, Y. Li, Y. Sang, G. Zhang
Year: 2021
Journal: Energy Reports, 7, 6354-6365
Citations: 37

Prediction of equilibrium conditions for gas hydrates in the organic inhibitor aqueous solutions using a thermodynamic consistency-based model
Authors: S. Li, Y. Li, L. Yang, Y. Han, Z. Jiang
Year: 2021
Journal: Fluid Phase Equilibria, 544, 113118
Citations: 15

Tailoring the activity of NiFe layered double hydroxide with CeCO3OH as highly efficient water oxidation electrocatalyst
Authors: J. Ding, Y. Han, G. Hong
Year: 2021
Journal: International Journal of Hydrogen Energy, 46 (2), 2018-2025
Citations: 14