1. Advanced Materials and Applied Physics 

This scope covers recent advances in material science and applied physics, including the study of functional materials, nanomaterials, and electronic and instrumentation systems, as well as electromagnetic applications. Contributions are expected to emphasize experimental, theoretical, or applied approaches that demonstrate significant relevance to technological development and real-world applications

2. Optical and Earth-Astronomy Physics 

This scope focuses on the application of modern technologies in physics, including numerical simulations, data modeling, optics and photonics, as well as geophysical and astronomical studies. Submissions should highlight quantitative analysis and interdisciplinary integration to advance the understanding of complex physical systems.

3. Digital Method in Physics Learning

This scope focuses on the application of digital methods to investigate, model, and analyze physical phenomena, with a strong emphasis on core physics principles and scientific rigor. It includes the use of data analysis, virtual and remote experimentation in physics-related studies. The term “learning” in this context is considered an application domain, where digital approaches are utilized to support the understanding, visualization, and exploration of physical systems. Therefore, contributions are expected to remain grounded in physics-based analysis and quantitative methods, and computational techniques, rather than purely pedagogical discussions. Submissions that demonstrate how digital tools enhance the investigation and interpretation of physical phenomena are particularly encouraged.