Multidisciplinary – Physics (MLP) - Journal of Engineering Research and Sciences (JENRS)

Multidisciplinary – Physics (MLP)

Section Information

Multidisciplinary Physics focuses on research that integrates multiple branches of physics or connects physics with other scientific and engineering disciplines. It supports studies that apply physical principles to complex systems, develop cross-cutting technologies, or bridge theoretical, experimental, and computational approaches across diverse fields.

Modern multidisciplinary physics research includes condensed matter and materials physics, photonics, quantum science, soft matter, biophysics, energy science, plasma physics, nonlinear systems, computational physics, and interdisciplinary applications involving chemistry, biology, engineering, and environmental science. Advances in instrumentation, simulations, nanotechnology, and data-driven methods continue to expand the reach of physics across scientific domains.

This section publishes theoretical work, experimental studies, computational modeling, interdisciplinary analyses, reviews, and applied research that integrate multiple areas of physics or demonstrate cross-domain relevance and innovation.

Scope

Condensed Matter, Materials, and Nanophysics
- Electronic, magnetic, and optical properties of materials
- Nanostructures, quantum materials, and 2D systems
- Soft matter, polymers, and complex fluids
- Materials synthesis, characterization, and device applications
Quantum Science, Photonics, and Optical Physics
- Quantum information, entanglement, and computation
- Photonics, lasers, nonlinear optics, and ultrafast processes
- Light–matter interactions and quantum sensing
- Applications in communication, imaging, and precision measurement
Biophysics and Interdisciplinary Life-Science Applications
- Molecular and cellular biophysics
- Mechanobiology, biomaterials, and biological networks
- Medical imaging, radiation physics, and diagnostic technologies
- Intersections of physics with physiology, genetics, and systems biology
Energy, Environmental, and Sustainability Physics
- Energy conversion, storage, and renewable technologies
- Thermal physics, heat transfer, and fluid dynamics
- Atmospheric, climate, and environmental physics
- Applications in sustainability, pollution control, and resource management
Plasma Physics and High-Energy-Density Science
- Fusion plasmas, confinement, and heating mechanisms
- Astrophysical plasmas and space physics
- Laser–plasma interactions and particle acceleration
- High-energy-density experiments and modeling
Nonlinear Physics, Complex Systems, and Dynamics
- Nonlinear waves, pattern formation, and chaos theory
- Statistical physics, networks, and emergent behavior
- Interdisciplinary modeling of complex physical systems
- Applications in engineering, climate science, and socio-physical systems
Computational and Data-Driven Physics
- Numerical simulation, multiscale modeling, and high-performance computing
- Machine learning, AI, and data-driven physical discovery
- Computational materials, fluid, and quantum physics
- Algorithm development and computational methodologies
Cross-Disciplinary and Applied Physics Research
- Physics-based technologies for engineering, medicine, and industry
- Instrumentation, sensing, and measurement science
- Interdisciplinary innovation in nanotechnology and photonics
- Emerging areas linking physics with chemistry, biology, and geoscience