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Biography
Prof. Orchidea Maria Lecian is a distinguished theoretical physicist and professor at Sapienza University of Rome, Italy. She graduated in Theoretical Physics from Sapienza University and the International Center for Relativistic Astrophysics (ICRA) in 2005. She subsequently completed her Ph.D. in International Relativistic Astrophysics at Sapienza University and ICRA .
Prof. Lecian has held postdoctoral fellowships at several prestigious institutions, including the Institut des Hautes Études Scientifiques (IHES) in France, the Max Planck Institute for Gravitational Physics (AEI-MPI) in Germany, and Sapienza University of Rome. She has also participated in intensive research programs at the AEI-MPI and The Fields Institute for Research in Mathematical Sciences in Canada .
In addition to her academic roles, Prof. Lecian has been a visiting professor at Comenius University in Bratislava, Slovakia, and Kursk State University in Russia. She has contributed to various national and international conferences and is a member of several research consortia. Her scholarly work includes research papers, conference papers, review articles, and books. She also serves as a reviewer and editorial board member for several scientific journals .
Prof. Lecian's research interests encompass general relativity, cosmology, gravitational physics, geometry, mathematical physics, quantum optics, quantum mechanics, and quantum field theory. She has authored over 200 publications and has been cited over 8,000 times, reflecting her significant impact in these fields .
Research Interest
Prof. Orchidea Maria Lecian's research is centered on the intersection of general relativity, cosmology, and gravitational physics. Her work delves into the mathematical underpinnings of the geometry of spacetime and the quantum nature of gravitational fields. A particular focus is placed on quantum field theory and its applications in cosmological models and black hole physics. Prof. Lecian also explores quantum optics, quantum mechanics, and mathematical physics, investigating how these concepts apply to high-energy environments like black holes and the early universe.
Her research contributes to a deeper understanding of the quantum structure of spacetime, the nature of singularities, and the emergence of quantum gravity. Prof. Lecian is also interested in developing new mathematical models to describe the behavior of gravitational waves and space-time curvature in both theoretical and observational contexts. This work has significant implications for astrophysics and theoretical physics.
Open Access Policy refers to a set of principles and guidelines aimed at providing unrestricted access to scholarly research and literature. It promotes the free availability and unrestricted use of research outputs, enabling researchers, students, and the general public to access, read, download, and distribute scholarly articles without financial or legal barriers. In this response, I will provide you with an overview of the history and latest resolutions related to Open Access Policy.
The finite Markov chain to which there correspond the qualities of the conformational dynamics of the K-Ras4B proteins in the catalytic reaction is written. The corresponding Markov-Sates models are studied.
The properties of the K-Ras4B processes Markov chain allow one to define a new two-state MSM for the analytical description of the final-state transition. The time evolution of the eigenvalue corresponding to the final-state transition in the Galerkin description is written.
The tools for the analytical calculations of the relative error ...are therefore prepared.
New analytical formulations of the time evolution of the eigenvalue corresponding to the final-state transition are newly written from the experimental data and form the properties of the lag time in shaping the discretization error. The features of the discretization error are newly studied. A comparison with the experimental data is proposed.
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