International Journal of Optical Innovations & Research

Editors Overview

ijoir maintains an Editorial Board of practicing researchers from around the world, to ensure manuscripts are handled by editors who are experts in the field of study.

Focus and Scope

About the Journal

International Journal of Optical Innovations & Research(IJOIR): is a peer-reviewed hybrid open-access journal launched in 2011 that creates awareness in the field of physics, specifically in the field of optical science and technology. Journal publishes major advancements in the field of astronomical, nonlinear, biometric optics, and other related issues. Journal is also devoted to ensuring the publication of original research papers and review articles. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas of its scope and research being done in the world, thus ensuring its scientific priority and significance.

Focus and Scope

  • Optical specifications: Material specifications for lenses, Filters, Polarizers, Prisms, Beamsplitters, Gratings, Fiber optics, Center Thickness Tolerance, Radius of Curvature, Angle Tolerance, Clear Aperture, Angle of Incidence, and Aspect Ratio.

  • Geometrical optics principles: Ray of light, Reflection, Incident & Reflected ray, Reflecting Surfaces, Paths of rays, Refractive index, Medium, Wavefronts, Snells Law, and Fiber optics.

  • Optoelectronic technologies: Photonics, Invisible radiations, Quantum mechanical effect, Combination of light & electricity, LEDs, Electric Fields, Light Detectors, Optical-to-electrical transducers, and Optocoupler.

  • Laser physics and atomic structure: Light beams, Electromagnetic field, Infrared Wave, Wavelength, Laser Cavity, Superior Monochromatism, Superior Coherence, Energy Level, Photons, Coherent state, VanderWaals interaction of atoms, and Stimulated emission.

  • Quantum optics: Quanta of light, Quantum theory, Speed of light, Electrons, Oscillator, Atom-field interaction, Cavity quantum electrodynamics, Polarization, Emission Process, and Electromagnetic radiation.

  • Optical lens design: Global optimization, Saddle-point method, Spherical, Aspheric, Distance to the next surface, Optical performance, Modulation transfer function, Strehl ratio, Ghost reflection control, Pupil performance, and Focal lengths.

  • Physics and lasers: Monochromatic, Gasdynamic Lasers, Laser Stability, Nonlinear Equations, Carbon Dioxide Lasers, Dynamic Characteristics, Metastable state, Stimulated emission, and Laser Beam.

  • Semiconductor properties: Conductivity between a conductor and an insulator, Negative temperature coefficient of resistance, Band Theory, N-Type Semiconductor, P-Type Semiconductor, Intrinsic vs Extrinsic, Mobility of electrons, Holes & Electrons, Energy Bands, and Band Gap.

  • Optical design: Seidel theory, Optical elements, High-concentration systems, Selection and configuration of type, Configuration, Field of view, Effective focal length, Spectral range, Image quality metric, Transmittance, and Distortion.

  • Optical instrumentation: Biosensor technology, Optical transducers, Telescopes, Binocular devices, Interferometer, Polarization controller, Reflectometer, Converging lens, Magnifying lens, Transparent materials, and Microscope.

  • Optical meteorology: Optical clocks, Autocollimators, Optical profilometers, Laser noise or quantum noise, Optical Temperature Sensors, Optical testing, and Optical Encoders.