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Journal of Microwave Engineering and Technologies Cover

Journal of Microwave Engineering and Technologies

ISSN: 2349-9001

Publisher

Focus and Scope

About the Journal

Journal of Microwave Engineering & Technologies [2349-9001(e)] is a peer-reviewed hybrid open-access journal launched in 2014 focused on the rapid publication of fundamental research papers on all areas of Microwave Engineering & Technologies.

Focus and Scope

  •  Microwave, Millimeter-Wave, and Terahertz Technologies: Wireless communications, directivity, spatial reuse, Medium access control, Numerical evaluations, Anisotropy, Material density, Materials characterization, Moisture, Nondestructive, Porosity, Cordierite, Microwave and millimeter-wave dielectric ceramics, 5G/6G communication, Infrared reflectance spectrum, 28GHz and 38GHz 5G communication system, Distributed and lumped components at mmW, Passive and active components at mmW, Transistor modeling for mmW applications, Bistatic radar components, Electromagnetic interactions, Ground-penetrating radar, Monostatic antenna, Radar technology, Signal-to-noise ratio, Wave Speed, Spectroscopy, THz, Radiation, Frequency, Dual-wavelength fiber lasers, Microwave photonics, Tunable fiber lasers, Integrated-circuit verification, Terahertz radiation, Terahertz plasmonics, electromagnetic, ground penetrating radar, radar, dielectric, concrete, corrosion.

  • Microwave Antennas and Devices:  Electron microscopy, Magnetic properties, Ferrites, Cavity perturbation, Micro-photovoltaic device, Micro energy-conversion device, Micromachine, microelectromechanical systems(MEMS), 3D printing, Fused filament fabrication, Microwave materials, High permittivity composites, graded-index lens, Ultrasonic cavitation, Microwave discharged liquid plasma, Wastewater treatment, Perfluorinated acid, Carbon nanotube, Nanotechnology, Dipole antenna, Switch, Inductance, quasiparticle, thermal radiation, Electroceramic, Dielectric resonator antenna, Material jetting, Electromagnetic, Cavity, Band-notched characteristics, High isolation, Multiple-input multiple-output (MIMO), Ultrawideband (UWB).

  • Microwave Photonics: Quantum optics, Atomic physics, Circuit QED, Cavity QED, Superconducting circuits, Quantum bits, Quantum information processing, Photon detection, Waveguide QED, bandwidth, photonic devices, microwave signal processing (MSP), dense wavelength division multiplexing, Brillouin scattering (SBS), stimulated Brillouin scattering, optical signal processing, analog optical systems, chromatic dispersion, carrier suppression, Fiber Mach–Zehnder interferometer, Phase modulation, Optical fiber sensor, Fiber grating, Antigen detection, bandpass filter.

  • Infrared and Laser Technologies: Fiber Laser, Mid-infrared ranges, Continuous wave, Optical pulses, Additive manufacturing, In-situ monitoring, Thermal model, Thermal behavior, Product quality, Numerical simulation, Diode laser applications, Trace gas monitoring, Material processing, an Incubation effect, Laser cutting, Infrared laser, Surface treatment, Composites, Adhesive bonding, Shear strength, Bismuthene quantum dots, Nonlinear Optical properties, Q-switching, Saturable absorber, Rate equations, Laser ablation, Nanomaterials, infrared spectroscopy, Third generation detectors, Uncooled thermal bolometers.

  • Band Gap Materials: Low band gap polymers, Synthesis, Organic photovoltaics (OPV), Photonic materials, Cholesteric liquid crystals, Bragg reflection, Photo-polymerization, II-VI Semiconductors, Defects, Wide bandgap II-VI’s, ZnSe, CdTe, Doping, Compensation, Surface plasmon, Biosensor, Charge transport, Electronic structures/processes/mechanisms, Organic electronics, Ultraviolet photoelectron spectroscopy, Inverse photoelectron spectroscopy, Thermophotovoltaics, Solar cells, Screen printing, Reflection spectra, Semiconductors, Butterfly scales, Bioinspired nano-architectures, Quasi Ordered multilayers, Reflectance, Tuning by oxidation.

  • Electromagnetic Field: Microwave exposure, DNA damage, Comet assay, Radiofrequency radiation, Cellular telephone, Global system for mobile communication, Mobile phones, Non-REM sleep, Specific absorption rate, Spectral analysis, Sleep spindles, Waking after sleep onset, Electromagnetic field effects, Cell biology, Electrical window, Electromagnetic probes, Chiral magnetic wave, Biosynthesis, Single strand breaks, Cell cycle, Comet assay, Intermittent exposure, Granule cell, Stereology, Optical fractionator, Global optimization, Metaheuristics, Population-based optimization, Golden ratio, Evolutionary algorithms.

  • MMIC, MEMS, PBG Structures, and Metamaterials: Capacitive switch, Coplanar waveguide (CPW), Fractal EBG, Bandstop filter, Slot resonator, Electromagnetic bandgap, Scanning transducer, Water-immersible microactuator, 3D ultrasound imaging, Biomedical engineering, high volume rate, plane wave imaging, water-immersible microfabricated mirror, Bianisotropy, Artificial media, Composites, metasurface, smart structure, meta devices, industrialization, Negative-index metamaterials, Nanofabrication, Nanolithography, Interference lithography, Nanoimprint, Effective media, Generalized sheet transition conditions (GSTC), Metafilm, Metasurface, Polarizability densities, Surface susceptibility, Acoustic metamaterials, Left-handed metamaterials, Negative effective mass density, Local resonance, Multi-displacement continuum theory, Multifunctional, Chiral, Mie resonance, Double-negative material.

Keywords

  • Frequency
  • Types of waves
  • Microwave
  • Millimeter wave
  • Backward Diode
  • Gunn Diode
  • Impact Diode
  • Transistors
  • Integrated Circuits (I.C)
  • Antennas
  • High-speed radio-frequency (RF) signal
  • Photonics
  • Electromagnetic
  • EM spectrum
  • Infrared, lasers
  • Energy, Gap
  • MMIC, MEMS, and PBG Structures