International Journal of Recent Innovation in Applied Physics & Applications (IJRIAPA) has been conceptualized for effective dissemination and promulgation of original research in all fields of Applied Physics and Applications. With a relentless pursuit of excellence, it aims at providing immaculate and superior research material, thus fostering the spirit of non-conformity, experimentation and de novo intellection among researchers in different parts of the world.

IJRIAPA strives ardently to present inceptive, innovative and invaluable research developments, both application oriented and theoretical, in all possible domains of Applied Physics and Applications to a broad audience of academic researchers and industry practitioners in all major faculties - research and development, management, strategic planning, purchasing, design & styling, marketing, human resources etc.

Ingeniousness and research impaction are the main parameters for evaluation of theoretical papers. Applications based on advanced theory and case studies aid in bridging the gap between theory and practice, and are particularly welcome.

General approaches, formalism's, algorithms or techniques should be complemented with lucid illustrations allowing easy comprehension and subsequent suitable applicability. Although the main emphasis of IJRIAPA is on original research papers, theoretical and integrative review articles, book reviews, and high-quality position papers are also published to keep readers up-to-date on the latest ideas, designs, and developments in these allied fields. Special review articles will be granted consideration based on the stage of evolvement of their respective fields.

Although there is no restriction on the length of contributions, brevity will always be preferred. Brief articles will merit attention depending on their technical proficiency.

Discussions of previously published papers are also welcome.

Focus & Scope

The focus and scope of International Journal of Recent Innovation in Applied Physics & Applications has been divided into the following domains:

Verticals of Physics

• Applied Non-linear Physics
• Applied Solid State Physics
• Atmospheric and Space Physics
• Astro Physics
• Biological Physics
• Chemical Physics
• Condensed Matter Physics
• Computational Physics
• Environmental Physics
• Engineering and Industrial Physics
• Experimental Biophysics
• Experimental High Energy Physics
• Experimental Low Temperature Physics
• Experimental High Pressure Physics
• Health Physics
• Interdisciplinary and General Physics
• Laser Physics
• Mathematical Physics
• Medical Physics
• Molecular Physics
• Nanoscale physics
• Non-linear Physics
• Nuclear Physics
• Optical Physics
• Plasma Physics
• Particle Physics
• Quantum Physics
• Radiation Physics
• Solid State Physics
• Statistical Physics
• Theoretical Biophysics
• Theoretical High Energy Physics
• X-Ray Physics

Atomic and Molecular Physics

• Atomic & Molecular Physics
• Atomic Spectra and Interactions with Photons
• Atomic and Molecular Collision Processes and Interactions
• Molecular Spectra and Interactions with Photons
• Properties of Atoms and Molecules; Instruments and Techniques
• Studies of Special Atoms and Molecules
• Theory of Atoms and Molecules

Condensed Matter: Electronic Structure, Electrical, Magnetic, and Optical Properties

• Theoretical Condensed Matter Physics
• Experimental Condensed Matter Physics
• Magnetism and Superconductivity
• Dielectric Properties and Materials
• Electron States
• Electronic Transport in Condensed Matter
• Electron and Ion Emission by Liquids and Solids; Impact Phenomena
• Electronic Structure and Electrical Properties of Surfaces, Interfaces, and Thin Films
• Magnetic Properties and Materials
• Magnetic Resonances and Relaxation in Condensed Matter; Mossbauer Effect
• Optical Properties & Condensed Matter Spectroscopy, Other Interactions of Mmatter with Particles & Radiation 

Classical Areas of Phenomenology

• Acoustics Heat Flow, Thermal and Thermodynamic Processes
• Electricity and Magnetism; Fields and Charged Particles
• Optics
• Fluid Dynamics
• Mechanics, Elasticity, Rheology

Fluids, Plasmas and Electric Discharges

• Condensed Matter: Structure, Thermal and Mechanical Properties
• Equations of State, Phase Equilibrium, and Phase Transitions
• Kinetic and Transport Theory of Fluids; Physical Properties of Gases
• Mechanical and Acoustic Properties of Condensed Matter
• Lattice Dynamics and Crystal Statistics
• Quantum Fluids and Solids; Liquid and Solid Helium
• Surfaces and Interfaces; Thin Films and Whiskers
• Structure of Liquids and Solids; Crystallography
• The Physics of Plasmas and Electric Discharges
• Thermal Properties of Condensed Matter
• Transport Properties of Condensed Matter (Non-electronic)

Mathematical Methods in Physics 

• Classical and Quantum Physics; Mechanics and Fields
• Measurement Science, General Laboratory Techniques, and Instrumentation Systems
• Relativity and Gravitation
• Statistical Physics and Thermodynamics
• Specific Instrumentation and Techniques of General Use in Physics

Nuclear Physics 

• Experimental Methods and Instrumentation for Elementary-particle and Nuclear Physics
• Nuclear Engineering and Nuclear Power Studies
• Nuclear Reactions and Scattering: General
• Nuclear Reactions and Scattering: Specific Reactions
• Properties of Specific Nuclei Listed by Mass Ranges
• Radioactivity and Electromagnetic Transitions

The Physics of Elementary Particles and Fields

• General Theory of Fields and Particles
• Properties of Specific Particles and Resonances
• Specific Theories and Interaction Models; Particle Systematics
• Specific Reactions and Phenomenology