Journal of Theoretical and Applied Physics (JTAP) is an international peer-reviewed bimonthly scientific journal. The JTAP covers all fundamental and applied experimental and theoretical physics research.
JTAP has been published quarterly since 2005. From 2013 to 2020, JTAP was published by Springer. JTAP is published as a print journal or in an online electronic format. JTAP is an open-access and free-of-charge journal for authors from different countries.
Our focus in JTAP is on the rapid publication of new and notable experimental and theoretical papers. This journal covers physics applications in all science, engineering, and modern technology disciplines. Three kinds of papers identified as “letters”, “research papers”, and “review papers” may be published in JTAP.
The priority of JTAP is to publish the needs of scientific society rather than its commercial interests. Physicists manage this journal to serve the physics family from all over the world. The JTAP covers the full range of applied and fundamental physics research topics.
All manuscripts submitted to the Journal of Theoretical and Applied Physics
(JTAP) undergo a single-blind review process. This ensures the quality of their research methodology, reasoning and report writing. This journal is indexed in Scopus and listed on the Emerging Sources Citation Index, Web of Science (ISI). OICC PRESS publishes this journal.
In this research, we have obtained the energy eigenvalues and the corresponding normalized eigenfunction for the linear combination of the modified Kratzer and generalized inverse quadratic Yukawa potential using two different analytical methods: the exact quantization rule and the formula method respectively. The obtained normalized wave function is used to study the Shannon entropy in […]
An Approximate bound state solutions of the Dirac equation under the spin and pseudospin symmetries for the deformed Woods-Saxon potential with a Hellmann-like tensor interaction was examined. With the help of the Nikiforov-Uvarov functional analysis (NUFA) method and an approximation scheme, the analytical and numerical energies of the combined potential were obtained for both symmetries, […]
Thin-layered materials from transition-metal dichalcogenides family and their preforms such as molybdenum three oxides (MoO3) exhibit great potential as active material in optoelectronics. Stable materials of few atoms thick have shown emerging capabilities in this area. In this article, we report the synthesis of MoO3 nanostructures by spray pyrolysis method. We will, perhaps for the […]
