. Graphene based photonic crystals including anisotropic defect layers with highly tunable optical responses in infrared frequency range, Physica B: Condensed Matter ۵۹۷, ۴۱۲۳۸۰ (۲۰۲۰).
. Tunable resonant Bragg photonic bandgap structures based on active quantum dot layers; crystals with applications in all-optical switches manufacturing, Waves in Random and Complex Media, ۱-۲۰ (۲۰۲۰).
. The role of the femtosecond laser induced nano/micro structures on the optical features of the steel surface; experimental polarimetry study, Surface Topography: Metrology and Properties ۸ (۲), ۰۲۵۰۲۴ (۲۰۲۰).
. Angle-and polarization-dependent reflection and backscattering from FS-LIPSS covered stainless steel surfaces: experimental study, The European Physical Journal Plus ۱۳۵ (۴), ۳۸۷ (۲۰۲۰).
. One-dimensional structure made of periodic slabs of SiO۲/InSb offering tunable wide band gap at terahertz frequency range, Chinese Physics B ۲۸ (۱۲), ۱۲۴۲۰۵ (۲۰۱۹).
. Tunable graphene based one dimensional photonic crystal with applications in terahertz optical integrated circuits, Physica B: Condensed Matter ۵۶۶, ۷۷-۸۵ (۲۰۱۹).
. Graphene based photonic crystal optical filter: Design and exploration of the tunability, Physics Letters A ۳۸۳ (۲۱), ۲۵۵۱-۲۵۶۰ (۲۰۱۹).
. Tunable photonic crystal wavelength sampler with response in terahertz frequency range, Optical and Quantum Electronics ۵۱ (۴), ۱۰۴ (۲۰۱۹).
. Terahertz tunable photonic crystal optical filter containing graphene and nonlinear electro-optic polymer, Laser Physics ۲۹ (۵), ۰۵۶۲۰۱ (۲۰۱۹).
. Influence of gold nanolayer coating on the continuous-wave laser ablation of a pure aluminum surface: Evaluations of structural and optical features, Thin Solid Films ۶۷۲, ۱۲۶-۱۳۲ (۲۰۱۹).
. Broad band temperature independent photonic crystal based optical filter with response in visible wavelength range, Laser Physics ۲۹ (۴), ۰۴۶۲۰۴ (۲۰۱۹).
. Birth of periodic Micro/Nano structures on ۳۱۶L stainless steel surface following femtosecond laser irradiation; Single and multi-scanning study, J. Opt. Laser Tech., ۱۰۴, (۲۰۱۸)
. Laser-assisted generation of periodic structures on a steel surface: A method for increasing micro hardness, Eur. Phys. J. Plus, ۱۳۳, No. ۴۹ (۲۰۱۸)
. Single step laser-assisted graphene oxide reduction and nonlinear optical properties exploration via CW laser excitation, J. Elec. Mat., doi.org/۱۰.۱۰۰۷/s۱۱۶۶۴-۰۱۸-۶۱۳۳-۹ (۲۰۱۸)
. Laser surface texturing of ۳۱۶L stainless steel in air and water: a method for increasing hydrophilicity via direct creation of micro structures, J. opt. laser Tech.,
۸۰, (۲۰۱۶)
. Laser processing of metallic biomaterials: An approach for surface patterning and wettability control, Eur. Phys. J. Plus, ۱۳۰, No. ۲۴۷ (۲۰۱۵)
. Improving the hydrophilicity of metallic surfaces by nanosecond pulsed laser surface modification, Journal of laser applications, ۲۷, No. ۴, (۲۰۱۵)
. Nanosecond Laser Surface Patterning of Bio-Grade ۳۱۶L Stainless Steel for Controlling its Wettability Characteristics, IJOP, ۹, No. ۱, Winter-Spring, (۲۰۱۵)
. High performance III-N Quantum Dot infrared photodetector operating in room temperature, Optics Express, ۱۸,issue ۱۴, (۲۰۱۰)
. Modelling of high temperature GaN Quantum Dot infrared photodetectors, IJOP, ۴, No. ۲, Summer-Fall (۲۰۱۰)
. Cuboid GaN/AlGaN Quantum Dot Infrared Photodetector;Photoconductive Gain and capture probability, Opt. Int. J. Light and Elec. Opt., Optik, ۱۲۴, (۲۰۱۳)
. Experimental investigation of the effect of laser treatment on the surface free energy of metals, ۲nd Int. Conf. New Front. in Phys. (ICNFP۲۰۱۴), ۹-۱۱ July ۲۰۱۴, Istanbul, Turkey.
. Optical exploration of micro/nanoscale irregularities created on metallic surfaces by femtosecond laser irradiation, Opt. Measurements, ۱۰-۱۴ June, ۲۰۱۶ Munchen, Germany.
. Irradiation Dose Dependence of Laser-Induced Periodic Surface Structures on Metallic Targets, ۱۷th Int. Symp. Laser Precision Micro-fabrication (LPM), ۲۳-۲۷ May ۲۰۱۶. Xi’an, China