Evgeny Liverts | Atomic Physics | Best Researcher Award

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Dr. Evgeny Liverts | Atomic Physics | Best Researcher Award

Dr. Evgeny Liverts Racah, Institute of Physics. The Hebrew University of Jerusalem, Israel

Dr. Evgeny Liverts is a theoretical physicist and senior researcher at the Racah Institute of Physics, Hebrew University of Jerusalem, Israel. With a Ph.D. in Physics from the Institute of Nuclear Physics, Alma-Ata, he has made significant contributions to computational quantum mechanics, atomic physics, and nuclear physics. His expertise spans advanced computational methods, ab initio calculations, and the study of atomic and molecular systems. Dr. Liverts has over four decades of experience in research, including a strong background in theoretical aspects of the Mössbauer effect and high-temperature superconductivity.

PROFILE

Orcid  Profile

Educational Detail

Master’s Degree (1974): Department of Theoretical Physics, Faculty of Physics, Dnepropetrovsk State University, USSR.

Ph.D. Degree (1983): Institute of Nuclear Physics, Alma-Ata, USSR. Approved by the Higher Attestation Commission, USSR Council of Ministers, Moscow (1983) and the Israeli Ministry of Education, Jerusalem (2005).

Professional Experience

Senior Scientist (1991–2002): Institute of Nuclear Physics, Alma-Ata, Kazakhstan.

Scientist (1983–1990): Institute of Nuclear Physics, Alma-Ata, Kazakhstan.

Junior Scientist (1977–1982): Institute of Nuclear Physics, Alma-Ata, Kazakhstan.

Engineer (1975–1976): Institute of Nuclear Physics, Alma-Ata, Kazakhstan.

Current Role: Researcher at the Racah Institute of Physics, Hebrew University of Jerusalem, Israel.

Research Interests

Dr. Liverts is an accomplished physicist with expertise in theoretical physics and quantum mechanics. His primary research directions include:

Development of advanced computational methods, including the Correlation Function Hyperspherical Harmonic Method (CFHHM) and quasilinearization techniques for solving Schrödinger’s equation.

Study of atomic systems, including double photoionization of atoms encapsulated in fullerenes and specific configurations of two-electron systems.

Ab initio calculations of atomic, nuclear, and molecular systems, focusing on non-relativistic energies, wave functions, and electroweak cross-sections in light nuclear systems.

Refinement of angular Fock coefficients, atomic coalescences, and calculations of bound and quasi-bound states in multi-body systems.

Theoretical studies of the Mössbauer effect and high-temperature superconductors using modern quantum chemistry techniques.

Skills

Proficient in Fortran (77, 90) and Wolfram Mathematica.

Experienced with operating systems such as Windows, Unix, and Linux.

Reviewer for leading scientific journals, including Physica Scripta, Journal of Physics A, Annals of Physics, and Computational Physics Communications.

Top Notable Publications

Evgeny Liverts (2024). “Two-Electron Atomic Systems—A Simple Method for Calculating the Ground State near the Nucleus: Some Applications.” Atoms, DOI: 10.3390/atoms12120069.

Evgeny Liverts (2022). “Fock Expansion for Two-Electron Atoms: High-Order Angular Coefficients.” Atoms, DOI: 10.3390/atoms10040135.

Evgeny Liverts (2022). “Co-spherical Electronic Configuration of the Helium-Like Atomic Systems.” Annals of Physics, DOI: 10.1016/j.aop.2021.168669.

Evgeny Liverts (2021). “Accurate Exponential Representations for the Ground State Wave Functions of the Collinear Two-Electron Atomic Systems.” Atoms, DOI: 10.3390/atoms10010004.

Evgeny Liverts (2020). “Collinear Configuration of the Helium Atom and Two-Electron Ions.” Annals of Physics, DOI: 10.1016/j.aop.2020.168306.

Evgeny Liverts (2020). “Averaged Electron Densities of the Helium-Like Atomic Systems.” Journal of Mathematical Physics, DOI: 10.1063/1.5129026.

Evgeny Liverts (2018). “The Green’s Function Approach to the Fock Expansion Calculations of Two-Electron Atoms.” Journal of Physics A: Mathematical and Theoretical, DOI: 10.1088/1751-8121/aaa2ce.

Conclusion

Dr. Evgeny Liverts is an exemplary candidate for the Research for Best Researcher Award due to his extensive contributions to theoretical physics, computational methods, and atomic studies. His innovative research, supported by a solid academic foundation and decades of professional expertise, makes him a strong contender for this prestigious recognition.