Assoc. Prof. Dr Semra Gurtas Dogan, Hakkari University, Turkey
π Assoc. Prof. Dr. Semra Gurtas Dogan is a dedicated physicist at Hakkari University, contributing significantly to academic and research fields. With a Ph.D. in Physics from Akdeniz University (2019), her groundbreaking thesis on Gravitational Waves in (2+1) Dimensions has pushed the boundaries of understanding cosmic phenomena, dark matter, and dark energy. Her prolific research includes over 20 high-impact publications, covering topics such as relativistic quantum mechanics, vector bosons, and fermion dynamics in exotic spacetime. Dr. Gurtas Doganβs work, widely recognized in prestigious journals, cements her as a leader in physics and a notable candidate for the Best Researcher Award. ππβ¨
Publication Profile
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Educational Background π
π Assoc. Prof. Dr. Semra Gurtas Dogan has an impressive educational background in physics, showcasing her passion for exploring complex theories. She earned her Ph.D. (2013β2019) from Akdeniz University, Turkey, focusing on Gravitational Waves in (2+1) Dimensions, delving into their role in explaining cosmic mysteries like dark matter and dark energy. Her M.Sc. (2009β2013) research involved analyzing quantum mechanical behaviors of spin-1 and spin-1/2 particles in curved spacetime, contributing to the field of relativistic quantum mechanics. Completing her undergraduate studies (2004β2008) at Akdeniz University, Dr. Gurtas Dogan’s work embodies dedication to advancing physics. π¬β¨π
Current Role and Focus πΌ
π« Assoc. Prof. Dr. Semra Gurtas Dogan has been a dedicated academic at Hakkari University since 2021, serving in the Vocational School of Health Services, Medical Services, and Techniques Department. Her role at this institution highlights her commitment to teaching, mentoring, and contributing to the university’s research endeavors. Dr. Gurtas Dogan brings her extensive expertise in physics, particularly her knowledge of gravitational waves and quantum mechanics, to foster an environment of academic excellence. Through her work, she continues to inspire and guide students and colleagues, playing a crucial role in advancing educational standards and scientific exploration. πππ‘
Research Focus Area π±π§¬
π Assoc. Prof. Dr. Semra Gurtas Dogan has made remarkable strides in theoretical and high-energy physics, particularly focusing on gravitational waves, relativistic quantum mechanics, and particle dynamics in exotic spacetime backgrounds. Her extensive research covers topics like the behavior of fermions and vector bosons in magnetized environments, the influence of magnetic flux on quantum systems, and particle interactions in curved spacetimes such as wormholes and black holes. Through detailed analyses, she has significantly contributed to understanding how these phenomena relate to cosmic mysteries like dark matter, dark energy, and early universal dynamics. πππ¬
Publication Top Notes
Damped modes for a bosonic quantum oscillator in the near-horizon geometry of the BTZ black hole
Relativistic dynamics of oppositely charged two fermions interacting with external uniform magnetic field
Vector bosons in the rotating frame of negative curvature wormholes
Quasinormal modes of Dirac field in 2+ 1 dimensional gravitational wave background
Relativistic quantum mechanical spin-1 wave equation in 2+ 1 dimensionalspacetime
Effect of internal magnetic flux on a relativistic spin-1 oscillator in the spinning point source-generated spacetime
Relativistic fermions and vector bosons in magnetized three-dimensional space-time with a cosmological constant
Quasibound states for a scalar field under the influence of an external magnetic field in the near-horizon geometry of the BTZ black hole with torsion
Photonic modes in twisted graphene nanoribbons
A new approach to compute the dipole moments of a Dirac electron
Conclusion π
Assoc. Prof. Dr. Semra Gurtas Dogan’s publication record, extensive research on gravitational waves, quantum mechanics, and theoretical physics, along with her contributions to various high-impact journals, demonstrate her as an excellent candidate for the Best Researcher Award. Her work not only advances scientific understanding but also showcases her capacity for innovative research, making her an asset to the global scientific community.